2 {-# LANGUAGE OverloadedStrings #-}
4 module Mate.BasicBlocks(
14 testCFG -- added by hs to perform benches from outside
20 import qualified Data.Map as M
21 import qualified Data.ByteString.Lazy as B
36 -- for immediate representation to determine BBs
37 type Offset = (Int, Maybe BBEnd) -- (offset in bytecode, offset to jump target)
38 type OffIns = (Offset, Instruction)
42 printMapBB :: MapBB -> IO ()
45 let keys = M.keys hmap
46 mapM_ (putStr . (flip (++)) ", " . show) keys
47 putStrLn "\n\nBasicBlocks:"
50 printMapBB' :: [BlockID] -> MapBB -> IO ()
51 printMapBB' [] _ = return ()
52 printMapBB' (i:is) hmap' = case M.lookup i hmap' of
54 putStrLn $ "Block " ++ (show i)
55 mapM_ putStrLn (map ((++) "\t" . show) $ code bb)
58 FallThrough t1 -> putStrLn $ "Sucessor: " ++ (show t1) ++ "\n"
59 OneTarget t1 -> putStrLn $ "Sucessor: " ++ (show t1) ++ "\n"
60 TwoTarget t1 t2 -> putStrLn $ "Sucessor: " ++ (show t1) ++ ", " ++ (show t2) ++ "\n"
62 Nothing -> error $ "BlockID " ++ show i ++ " not found."
67 testInstance :: String -> B.ByteString -> MethodSignature -> IO ()
68 testInstance cf method sig = do
69 cls <- parseClassFile cf
70 hmap <- parseMethod cls method sig
82 test_01, test_02, test_03, test_04 :: IO ()
83 test_01 = testInstance "./tests/Fib.class" "fib"
84 test_02 = testInstance "./tests/While.class" "f"
85 test_03 = testInstance "./tests/While.class" "g"
86 test_04 = testInstance "./tests/Fac.class" "fac"
91 parseMethod :: Class Direct -> B.ByteString -> MethodSignature -> IO RawMethod
92 parseMethod cls methodname sig = do
93 let method = fromMaybe
94 (error $ "method " ++ (show . toString) methodname ++ " not found")
95 (lookupMethodSig methodname sig cls)
96 let codeseg = fromMaybe
97 (error $ "codeseg " ++ (show . toString) methodname ++ " not found")
98 (attrByName method "Code")
99 let decoded = decodeMethod codeseg
100 let mapbb = testCFG decoded
101 let locals = fromIntegral (codeMaxLocals decoded)
102 let stacks = fromIntegral (codeStackSize decoded)
103 let codelen = fromIntegral (codeLength decoded)
104 let methoddirect = methodInfoToMethod (MethodInfo methodname "" sig) cls
105 let isStatic = methodIsStatic methoddirect
106 let nametype = methodNameType methoddirect
107 let argscount = methodGetArgsCount nametype + (if isStatic then 0 else 1)
109 let msig = methodSignature method
110 printfBb "BB: analysing \"%s\"\n" $ toString (methodname `B.append` ": " `B.append` encode msig)
114 -- small example how to get information about
115 -- exceptions of a method
117 let (Just m) = lookupMethodSig methodname sig cls
118 case attrByName m "Code" of
120 printfBb "exception: no handler for this method\n"
121 Just exceptionstream ->
122 printfBb "exception: \"%s\"\n" (show $ codeExceptions $ decodeMethod exceptionstream)
123 return $ RawMethod mapbb locals stacks argscount codelen
126 testCFG :: Code -> MapBB
127 testCFG = buildCFG . codeInstructions
129 buildCFG :: [Instruction] -> MapBB
130 buildCFG xs = buildCFG' M.empty xs' xs'
133 xs' = markBackwardTargets $ calculateInstructionOffset xs
135 -- get already calculated jmp-targets and mark the predecessor of the
136 -- target-instruction as "FallThrough". we just care about backwards
137 -- jumps here (forward jumps are handled in buildCFG')
138 markBackwardTargets :: [OffIns] -> [OffIns]
139 markBackwardTargets [] = []
140 markBackwardTargets (x:[]) = [x]
141 markBackwardTargets insns@(x@((x_off,x_bbend),x_ins):y@((y_off,_),_):xs) =
142 x_new:markBackwardTargets (y:xs)
144 x_new = if isTarget then checkX y_off else x
145 checkX w16 = case x_bbend of
146 Just _ -> x -- already marked, don't change
147 Nothing -> ((x_off, Just $ FallThrough w16), x_ins) -- mark previous insn
149 -- look through all remaining insns in the stream if there is a jmp to `y'
150 isTarget = case find cmpOffset insns of Just _ -> True; Nothing -> False
151 cmpOffset ((_,Just (OneTarget w16)),_) = w16 == y_off
152 cmpOffset ((_,Just (TwoTarget _ w16)),_) = w16 == y_off
156 buildCFG' :: MapBB -> [OffIns] -> [OffIns] -> MapBB
157 buildCFG' hmap [] _ = hmap
158 buildCFG' hmap (((off, entry), _):xs) insns = buildCFG' (insertlist entryi hmap) xs insns
160 insertlist :: [BlockID] -> MapBB -> MapBB
161 insertlist [] hmap' = hmap'
162 insertlist (y:ys) hmap' = insertlist ys newhmap
164 newhmap = if M.member y hmap' then hmap' else M.insert y value hmap'
165 value = parseBasicBlock y insns
167 entryi = if off == 0 then 0:ys else ys -- also consider the entrypoint
170 Just (TwoTarget t1 t2) -> [t1, t2]
171 Just (OneTarget t) -> [t]
172 Just (FallThrough t) -> [t]
177 parseBasicBlock :: Int -> [OffIns] -> BasicBlock
178 parseBasicBlock i insns = BasicBlock insonly endblock
180 startlist = dropWhile (\((x,_),_) -> x < i) insns
181 (Just ((_, Just endblock),_), is) = takeWhilePlusOne validins startlist
182 insonly = snd $ unzip is
184 -- also take last (non-matched) element and return it
185 takeWhilePlusOne :: (a -> Bool) -> [a] -> (Maybe a,[a])
186 takeWhilePlusOne _ [] = (Nothing,[])
187 takeWhilePlusOne p (x:xs)
188 | p x = let (lastins, list) = takeWhilePlusOne p xs in (lastins, x:list)
189 | otherwise = (Just x,[x])
191 validins :: ((Int, Maybe BBEnd), Instruction) -> Bool
192 validins ((_,x),_) = case x of Just _ -> False; Nothing -> True
195 calculateInstructionOffset :: [Instruction] -> [OffIns]
196 calculateInstructionOffset = cio' (0, Nothing)
198 newoffset :: Instruction -> Int -> Offset
199 newoffset x off = (off + fromIntegral (B.length $ encodeInstructions [x]), Nothing)
201 addW16Signed :: Int -> Word16 -> Int
202 addW16Signed i w16 = i + fromIntegral s16
203 where s16 = fromIntegral w16 :: Int16
205 cio' :: Offset -> [Instruction] -> [OffIns]
207 -- TODO(bernhard): add more instruction with offset (IF_ACMP, JSR, ...)
208 cio' (off,_) (x:xs) = case x of
209 IF _ w16 -> twotargets w16
210 IF_ICMP _ w16 -> twotargets w16
211 IF_ACMP _ w16 -> twotargets w16
212 IFNONNULL w16 -> twotargets w16
213 IFNULL w16 -> twotargets w16
214 GOTO w16 -> onetarget w16
218 _ -> ((off, Nothing), x):next
220 notarget = ((off, Just Return), x):next
221 onetarget w16 = ((off, Just $ OneTarget (off `addW16Signed` w16)), x):next
222 twotargets w16 = ((off, Just $ TwoTarget (off + 3) (off `addW16Signed` w16)), x):next
223 next = cio' (newoffset x off) xs