module Language.Preprocessor.Cpphs.CppIfdef
( cppIfdef
) where
import Text.Parse
import Language.Preprocessor.Cpphs.SymTab
import Language.Preprocessor.Cpphs.Position (Posn,newfile,newline,newlines
,cppline,cpp2hask,newpos)
import Language.Preprocessor.Cpphs.ReadFirst (readFirst)
import Language.Preprocessor.Cpphs.Tokenise (linesCpp,reslash)
import Language.Preprocessor.Cpphs.Options (BoolOptions(..))
import Language.Preprocessor.Cpphs.HashDefine(HashDefine(..),parseHashDefine
,expandMacro)
import Language.Preprocessor.Cpphs.MacroPass (preDefine,defineMacro)
import Data.Char (isDigit,isSpace,isAlphaNum)
import Data.List (intercalate,isPrefixOf)
import Numeric (readHex,readOct,readDec)
import System.IO.Unsafe (unsafeInterleaveIO)
import System.IO (hPutStrLn,stderr)
import Control.Monad (when)
cppIfdef :: FilePath
-> [(String,String)]
-> [String]
-> BoolOptions
-> String
-> IO [(Posn,String)]
cppIfdef fp syms search options =
cpp posn defs search options (Keep []) . initial . linesCpp
where
posn = newfile fp
defs = preDefine options syms
initial = if literate options then id else (cppline posn:)
data KeepState = Keep [Posn] | Drop Int Bool [Posn]
cpp :: Posn -> SymTab HashDefine -> [String] -> BoolOptions -> KeepState
-> [String] -> IO [(Posn,String)]
cpp _ _ _ _ (Keep ps) [] | not (null ps) = do
hPutStrLn stderr $ "Unmatched #if: positions of open context are:\n"++
unlines (map show ps)
return []
cpp _ _ _ _ _ [] = return []
cpp p syms path options (Keep ps) (l@('#':x):xs) =
let ws = words x
cmd = if null ws then "" else head ws
line = tail ws
sym = head (tail ws)
rest = tail (tail ws)
def = defineMacro options (sym++" "++ maybe "1" id (un rest))
un v = if null v then Nothing else Just (unwords v)
keepIf b = if b then Keep (p:ps) else Drop 1 False (p:ps)
skipn syms' retain ud xs' =
let n = 1 + length (filter (=='\n') l) in
(if macros options && retain then emitOne (p,reslash l)
else emitMany (replicate n (p,""))) $
cpp (newlines n p) syms' path options ud xs'
in case cmd of
"define" -> skipn (insertST def syms) True (Keep ps) xs
"undef" -> skipn (deleteST sym syms) True (Keep ps) xs
"ifndef" -> skipn syms False (keepIf (not (definedST sym syms))) xs
"ifdef" -> skipn syms False (keepIf (definedST sym syms)) xs
"if" -> do b <- gatherDefined p syms (unwords line)
skipn syms False (keepIf b) xs
"else" -> skipn syms False (Drop 1 False ps) xs
"elif" -> skipn syms False (Drop 1 True ps) xs
"endif" | null ps ->
do hPutStrLn stderr $ "Unmatched #endif at "++show p
return []
"endif" -> skipn syms False (Keep (tail ps)) xs
"pragma" -> skipn syms True (Keep ps) xs
('!':_) -> skipn syms False (Keep ps) xs
"include"-> do (inc,content) <- readFirst (file syms (unwords line))
p path
(warnings options)
cpp p syms path options (Keep ps)
(("#line 1 "++show inc): linesCpp content
++ cppline (newline p): xs)
"warning"-> if warnings options then
do hPutStrLn stderr (l++"\nin "++show p)
skipn syms False (Keep ps) xs
else skipn syms False (Keep ps) xs
"error" -> error (l++"\nin "++show p)
"line" | all isDigit sym
-> (if locations options && hashline options then emitOne (p,l)
else if locations options then emitOne (p,cpp2hask l)
else id) $
cpp (newpos (read sym) (un rest) p)
syms path options (Keep ps) xs
n | all isDigit n && not (null n)
-> (if locations options && hashline options then emitOne (p,l)
else if locations options then emitOne (p,cpp2hask l)
else id) $
cpp (newpos (read n) (un (tail ws)) p)
syms path options (Keep ps) xs
| otherwise
-> do when (warnings options) $
hPutStrLn stderr ("Warning: unknown directive #"++n
++"\nin "++show p)
emitOne (p,l) $
cpp (newline p) syms path options (Keep ps) xs
cpp p syms path options (Drop n b ps) (('#':x):xs) =
let ws = words x
cmd = if null ws then "" else head ws
delse | n==1 && b = Drop 1 b ps
| n==1 = Keep ps
| otherwise = Drop n b ps
dend | n==1 = Keep (tail ps)
| otherwise = Drop (n1) b (tail ps)
delif v | n==1 && not b && v
= Keep ps
| otherwise = Drop n b ps
skipn ud xs' =
let n' = 1 + length (filter (=='\n') x) in
emitMany (replicate n' (p,"")) $
cpp (newlines n' p) syms path options ud xs'
in
if cmd == "ifndef" ||
cmd == "if" ||
cmd == "ifdef" then skipn (Drop (n+1) b (p:ps)) xs
else if cmd == "elif" then do v <- gatherDefined p syms (unwords (tail ws))
skipn (delif v) xs
else if cmd == "else" then skipn delse xs
else if cmd == "endif" then
if null ps then do hPutStrLn stderr $ "Unmatched #endif at "++show p
return []
else skipn dend xs
else skipn (Drop n b ps) xs
cpp p syms path options (Keep ps) (x:xs) =
let p' = newline p in seq p' $
emitOne (p,x) $ cpp p' syms path options (Keep ps) xs
cpp p syms path options d@(Drop _ _ _) (_:xs) =
let p' = newline p in seq p' $
emitOne (p,"") $ cpp p' syms path options d xs
emitOne :: a -> IO [a] -> IO [a]
emitMany :: [a] -> IO [a] -> IO [a]
emitOne x io = do ys <- unsafeInterleaveIO io
return (x:ys)
emitMany xs io = do ys <- unsafeInterleaveIO io
return (xs++ys)
gatherDefined :: Posn -> SymTab HashDefine -> String -> IO Bool
gatherDefined p st inp =
case runParser (preExpand st) inp of
(Left msg, _) -> error ("Cannot expand #if directive in file "++show p
++":\n "++msg)
(Right s, xs) -> do
when (any (not . isSpace) xs) $
hPutStrLn stderr ("Warning: trailing characters after #if"
++" macro expansion in file "++show p++": "++xs)
case runParser parseBoolExp s of
(Left msg, _) -> error ("Cannot parse #if directive in file "++show p
++":\n "++msg)
(Right b, xs) -> do when (any (not . isSpace) xs && notComment xs) $
hPutStrLn stderr
("Warning: trailing characters after #if"
++" directive in file "++show p++": "++xs)
return b
notComment = not . ("//"`isPrefixOf`) . dropWhile isSpace
preExpand :: SymTab HashDefine -> TextParser String
preExpand st =
do eof
return ""
<|>
do a <- many1 (satisfy notIdent)
commit $ pure (a++) `apply` preExpand st
<|>
do b <- expandSymOrCall st
commit $ pure (b++) `apply` preExpand st
expandSymOrCall :: SymTab HashDefine -> TextParser String
expandSymOrCall st =
do sym <- parseSym
if sym=="defined" then do arg <- skip parseSym; convert sym [arg]
<|>
do arg <- skip $ parenthesis (do x <- skip parseSym;
skip (return x))
convert sym [arg]
<|> convert sym []
else
( do args <- parenthesis (commit $ fragment `sepBy` skip (isWord ","))
args' <- flip mapM args $ \arg->
case runParser (preExpand st) arg of
(Left msg, _) -> fail msg
(Right s, _) -> return s
convert sym args'
<|> convert sym []
)
where
fragment = many1 (satisfy (`notElem`",)"))
convert "defined" [arg] =
case lookupST arg st of
Nothing | all isDigit arg -> return arg
Nothing -> return "0"
Just (a@AntiDefined{}) -> return "0"
Just (a@SymbolReplacement{}) -> return "1"
Just (a@MacroExpansion{}) -> return "1"
convert sym args =
case lookupST sym st of
Nothing -> if null args then return sym
else return "0"
Just (a@SymbolReplacement{}) -> do reparse (replacement a)
return ""
Just (a@MacroExpansion{}) -> do reparse (expandMacro a args False)
return ""
Just (a@AntiDefined{}) ->
if null args then return sym
else return "0"
disp sym args = let len = length args
chars = map (:[]) ['a'..'z']
in sym ++ if null args then ""
else "("++intercalate "," (take len chars)++")"
parseBoolExp :: TextParser Bool
parseBoolExp =
do a <- parseExp1
bs <- many (do skip (isWord "||")
commit $ skip parseBoolExp)
return $ foldr (||) a bs
parseExp1 :: TextParser Bool
parseExp1 =
do a <- parseExp0
bs <- many (do skip (isWord "&&")
commit $ skip parseExp1)
return $ foldr (&&) a bs
parseExp0 :: TextParser Bool
parseExp0 =
do skip (isWord "!")
a <- commit $ parseExp0
return (not a)
<|>
do val1 <- parseArithExp1
op <- parseCmpOp
val2 <- parseArithExp1
return (val1 `op` val2)
<|>
do sym <- parseArithExp1
case sym of
0 -> return False
_ -> return True
<|>
do parenthesis (commit parseBoolExp)
parseArithExp1 :: TextParser Integer
parseArithExp1 =
do val1 <- parseArithExp0
( do op <- parseArithOp1
val2 <- parseArithExp1
return (val1 `op` val2)
<|> return val1 )
<|>
do parenthesis parseArithExp1
parseArithExp0 :: TextParser Integer
parseArithExp0 =
do val1 <- parseNumber
( do op <- parseArithOp0
val2 <- parseArithExp0
return (val1 `op` val2)
<|> return val1 )
<|>
do parenthesis parseArithExp0
parseNumber :: TextParser Integer
parseNumber = fmap safeRead $ skip parseSym
where
safeRead s =
case s of
'0':'x':s' -> number readHex s'
'0':'o':s' -> number readOct s'
_ -> number readDec s
number rd s =
case rd s of
[] -> 0 :: Integer
((n,_):_) -> n :: Integer
parseCmpOp :: TextParser (Integer -> Integer -> Bool)
parseCmpOp =
do skip (isWord ">=")
return (>=)
<|>
do skip (isWord ">")
return (>)
<|>
do skip (isWord "<=")
return (<=)
<|>
do skip (isWord "<")
return (<)
<|>
do skip (isWord "==")
return (==)
<|>
do skip (isWord "!=")
return (/=)
parseArithOp1 :: TextParser (Integer -> Integer -> Integer)
parseArithOp1 =
do skip (isWord "+")
return (+)
<|>
do skip (isWord "-")
return ()
parseArithOp0 :: TextParser (Integer -> Integer -> Integer)
parseArithOp0 =
do skip (isWord "*")
return (*)
<|>
do skip (isWord "/")
return (div)
<|>
do skip (isWord "%")
return (rem)
parseSymOrCall :: SymTab HashDefine -> TextParser String
parseSymOrCall st =
do sym <- skip parseSym
args <- parenthesis (commit $ parseSymOrCall st `sepBy` skip (isWord ","))
return $ convert sym args
<|>
do sym <- skip parseSym
return $ convert sym []
where
convert sym args =
case lookupST sym st of
Nothing -> sym
Just (a@SymbolReplacement{}) -> recursivelyExpand st (replacement a)
Just (a@MacroExpansion{}) -> recursivelyExpand st (expandMacro a args False)
Just (a@AntiDefined{}) -> name a
recursivelyExpand :: SymTab HashDefine -> String -> String
recursivelyExpand st inp =
case runParser (parseSymOrCall st) inp of
(Left msg, _) -> inp
(Right s, _) -> s
parseSym :: TextParser String
parseSym = many1 (satisfy (\c-> isAlphaNum c || c`elem`"'`_"))
`onFail`
do xs <- allAsString
fail $ "Expected an identifier, got \""++xs++"\""
notIdent :: Char -> Bool
notIdent c = not (isAlphaNum c || c`elem`"'`_")
skip :: TextParser a -> TextParser a
skip p = many (satisfy isSpace) >> p
parenthesis :: TextParser a -> TextParser a
parenthesis p = do isWord "("
x <- p
isWord ")"
return x
file :: SymTab HashDefine -> String -> String
file st name =
case name of
('"':ns) -> init ns
('<':ns) -> init ns
_ -> let ex = recursivelyExpand st name in
if ex == name then name else file st ex