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GMachine.hs
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GMachine.hs
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-- | GMachine
-- reference: Implementing Functional Languages: a tutorial
--
-- GC is executed every 256 allocation.
module GMachine where
import Control.Arrow
import Control.Monad
import Control.Monad.State
import Control.Monad.Identity
import Data.Ord
import Data.Char
import Data.List
import Data.Maybe
import qualified Data.Map as M
import qualified Data.Set as S
import Util as U hiding(Pack)
import qualified Util as U
import SRuntime
import SAM
data GFCompileFlag=GFCompileFlag
{addrSpace :: Int -- ^ bytes
}
-- | Compile 'GMCode's to SAM
--
-- See my blog (japanese) for overview of operational model.
--
-- Heap frame of size k with n-byte address:
--
-- * 1 B: size of this frame
--
-- * 1 B: GC tag
--
-- * k B: payload
--
-- * n B: id of this frame
--
-- * 1 B: size of this frame
--
-- Heap frame of size k with n-byte address:
--
-- Is it a good idea to remove GC tag, and attach it only when GC is running?
-- (PRO:normally faster,CON:slower gcTransfer)
--
--
-- Heap payload:
--
-- You can return from anywhere on stack to origin, but not from heap.
compile :: M.Map String [GMCode] -> Process SAM
compile m
|codeSpace>1 = error "GM->SAM: 255+ super combinator is not supported"
|heapSpace>1 = error "GM->SAM: 2+ byte addresses are not supported"
|M.notMember "main" m = error "GM->SAM: entry point not found"
|otherwise = return $ SAM (ss++hs) (library++dispatcher++procs)
where
t=M.fromList $ ("main",2):zip (filter (/="main") $ M.keys m) [3..]
-- code generation
library=genLibrary $ S.toList $ S.unions $ map (S.unions . map collectConArity) $ M.elems m
procs=map (uncurry $ compileProc t) $ M.assocs m
dispatcher=[exec $ M.assocs t]
-- layout configuration
codeSpace=ceiling $ log (fromIntegral $ M.size m+2)/log 256
heapSpace=1
ss=map (("S"++) . show) [0..heapSpace-1]
hs=["Hp","Hs"]
collectConArity :: GMCode -> S.Set Int
collectConArity (Pack _ n)=S.singleton n
collectConArity (Case cs)=S.unions $ map (S.unions . map collectConArity . snd) cs
collectConArity _=S.empty
simplify :: M.Map String [GMCode] -> Process (M.Map String [GMCode])
simplify=return . M.map elimBase . elimReduce . removeLoneSC
removeLoneSC :: M.Map String [GMCode] -> M.Map String [GMCode]
removeLoneSC m=M.filterWithKey (\k _->S.member k col) m
where col=rlscAux m S.empty (S.singleton "main")
rlscAux :: M.Map String [GMCode] -> S.Set String -> S.Set String -> S.Set String
rlscAux m col front
|S.null front = col
|otherwise = rlscAux m col' (S.difference new col')
where
col'=S.union col front
new=S.unions $ map (S.unions . map collectDepSC . find) $ S.toList front
find x=M.findWithDefault (error $ "rlscAux:"++show x) x m
collectDepSC :: GMCode -> S.Set String
collectDepSC (PushSC x)=S.singleton x
collectDepSC (Case cs)=S.unions $ map (S.unions . map collectDepSC . snd) cs
collectDepSC _=S.empty
-- | Optmize away /base/ cases like following.
--
-- * Case with 1 clause
--
-- * Pop 0
--
-- * Slide 0 (in fact, successive 'Slide's form a 'Monoid')
elimBase :: [GMCode] -> [GMCode]
elimBase []=[]
elimBase (Slide 0:xs)=elimBase xs
elimBase (Slide n:Slide m:xs)=elimBase $ Slide (n+m):xs
elimBase (Case cs:xs)
|length cs<=1 = elimBase $ (snd $ head cs)++xs
|otherwise = Case (map (second elimBase) cs):elimBase xs
elimBase (Pop 0:xs)=elimBase xs
elimBase (x:xs)=x:elimBase xs
-- | Separate ['GMCode'] at 'Reduce'.
elimReduce :: M.Map String [GMCode] -> M.Map String [GMCode]
elimReduce=M.fromList . concatMap f . M.assocs
where f (n,xs)=aux n [] xs
aux :: String -> [GMCode] -> [GMCode] -> [(String,[GMCode])]
aux n cs []=[(n,reverse cs)]
aux n cs (Reduce _:xs)=(n,reverse cs++[PushSC n',Swap]):aux n' [] xs
where n'=n++"_"
aux n cs (Case as:xs)
|null rs = aux n (Case as:cs) xs
|otherwise = (n,reverse $ Case as'':cs):rs
where
as'=map (\(k,x)->(k,aux (n++"_d"++show k) [] $ x++xs)) as
as''=map (second $ snd . head) as'
rs=concatMap (tail . snd) as'
aux ns cs (x:xs)=aux ns (x:cs) xs
-- | Thin wrapper of 'compileCodeBlock'
compileProc :: M.Map String Int -> String -> [GMCode] -> SProc
compileProc m name cs=SProc ("!"++name) [] $ contWith m Origin cs []
data MPos
=HeapA
|StackA
|StackT
|Origin
deriving(Show,Eq)
fPos :: GMCode -> MPos
fPos (PushByte _)=HeapA
fPos (PushSC _)=HeapA
fPos MkApp=HeapA
fPos (Pack _ _)=HeapA
fPos Swap=StackT
fPos (Push _)=StackA
fPos (Slide _)=StackT
fPos (PushArg _)=StackT
fPos (Case _)=StackT
fPos (UnPack _)=StackA
fPos (Update _)=StackT
fPos (Pop _)=StackT
fPos (GMachine.Alloc _)=fPos $ PushByte 0
fPos (Arith _)=StackT
fPos (UError _)=StackA -- any position will do, actually.
fPos x=error $ show x
-- requirement: HeapA
newFrame :: Int -> [Int] -> (Pointer -> [Stmt]) -> [Stmt]
newFrame tag xs post=
[Comment $ unwords ["nf",show tag,show xs]
,SAM.Alloc "addr"
,Inline "#heapNewHp" ["addr"]
,Clear (Memory "Hp" $ size-2)
,Move (Register "addr") [Memory "Hp" $ size-2]
,Delete "addr"
,Val (Memory "Hp" 0) size
,Clear (Memory "Hp" 1),Val (Memory "Hp" 1) 0 -- GC tag
,Clear (Memory "Hp" 2),Val (Memory "Hp" 2) tag -- node tag
]++
concatMap set (zip [3..] xs)++
[Clear (Memory "Hp" $ size-1),Val (Memory "Hp" $ size-1) size
,Clear (Memory "Hp" size) -- next frame
]++
post (Memory "Hp" $ size-2)
where
size=5+length xs
set (ix,v)=[Clear (Memory "Hp" ix),Val (Memory "Hp" ix) v]
-- | Compile 'GMCode's from given 'MPos' to 'Stmt's, followed by 'Origin' returning code.
contWith :: M.Map String Int -> MPos -> [GMCode] -> [Stmt] -> [Stmt]
contWith m Origin [] ss=ss
contWith m HeapA [] ss=ss++[Inline "#heap1Hp" []]
contWith m StackA [] ss=ss++[Inline "#stack1S0" []]
contWith m StackT [] ss=ss++[Inline "#stack1S0" []]
contWith m prev xs@(x:_) ss=ss++transition prev (fPos x)++[Comment (show x)]++compileCode m xs
-- TODO: come up with good abstraction
transition :: MPos -> MPos -> [Stmt]
transition x y
|x==y = []
|x==Origin && y==StackT = [Inline "#stackTopS0" []]
|x==Origin = []
|x==StackA && y==StackT = [Inline "#stackTopS0" []]
|x==StackA && y==Origin = [Inline "#stack1S0" []]
|x==StackA && y==HeapA = [Inline "#stack1S0" []]
|x==StackT && y==StackA = []
|x==StackT && y==Origin = [Inline "#stack1S0" []]
|x==StackT && y==HeapA = [Inline "#stack1S0" []]
|x==HeapA && y==StackT = [Inline "#heap1Hp" [],Inline "#stackTopS0" []]
|x==HeapA = [Inline "#heap1Hp" []]
-- | Compile a single 'GMCode' to a procedure. StackA|HeapA -> StackA|HeapA
compileCode :: M.Map String Int -> [GMCode] -> [Stmt]
compileCode m (PushByte x:is)= -- constTag x
contWith m StackT is $ newFrame constTag [x] $ \pa->
[SAM.Alloc "addr"
,Copy pa [Register "addr"]
,Inline "#heap1Hp" []
,Inline "#stackNewS0" []
,Move (Register "addr") [Memory "S0" 0]
,Delete "addr"
]
compileCode m (PushSC k:is)= -- scTag sc
contWith m StackT is $ newFrame scTag [m M.! k] $ \pa->
[SAM.Alloc "addr"
,Copy pa [Register "addr"]
,Inline "#heap1Hp" []
,Inline "#stackNewS0" []
,Move (Register "addr") [Memory "S0" 0]
,Delete "addr"
]
compileCode m (MkApp:is)= -- appTag ap0 ap1
contWith m HeapA is $ newFrame appTag [0,0] $ \pa->
[SAM.Alloc "addr"
,Copy pa [Register "addr"]
,Inline "#heap1Hp" []
,Inline "#stackNewS0" []
,SAM.Alloc "tr1"
,Move (Memory "S0" (-1)) [Register "tr1"]
,SAM.Alloc "tr2"
,Move (Memory "S0" (-2)) [Register "tr2"]
,Copy (Register "addr") [Memory "S0" (-2)]
,Locate (-2)
,Inline "#stack1S0" []
,Inline "#heapRefHp" ["addr"]
,Delete "addr"
,Move (Register "tr1") [Memory "Hp" 3]
,Delete "tr1"
,Move (Register "tr2") [Memory "Hp" 4]
,Delete "tr2"
]
compileCode m (Pack t 0:is)=
contWith m StackT is $ newFrame structTag [t] $ \pa->
[SAM.Alloc "addr"
,Copy pa [Register "addr"]
,Inline "#heap1Hp" []
,Inline "#stackNewS0" []
,Move (Register "addr") [Memory "S0" 0]
,Delete "addr"
]
compileCode m (Pack t n:is)= -- stTag t x1...xn
contWith m HeapA is $ newFrame structTag (t:replicate n 0) $ \pa->
[SAM.Alloc "addr"
,Copy pa [Register "addr"]
,Inline "#heap1Hp" []
,Inline "#stackNewS0" []
]++
concatMap (\n->let r="tr"++show n in [SAM.Alloc r,Move (Memory "S0" $ negate n) [Register r]]) [1..n]++
[Copy (Register "addr") [Memory "S0" $ negate n]
,Locate $ negate n
,Inline "#stack1S0" []
,Inline "#heapRefHp" ["addr"]
,Delete "addr"
]++
concatMap (\n->let r="tr"++show n in [Move (Register r) [Memory "Hp" $ n+3],Delete r]) [1..n]
compileCode m (UnPack 0:is)=contWith m StackT is $
[Inline "#stackNewS0" []
,Clear (Memory "S0" (-1))
,Locate (-2)
]
compileCode m (UnPack n:is)=contWith m StackA is $ -- the last item becomes top
[Inline "#stackNewS0" []
,SAM.Alloc "saddr"
,Move (Memory "S0" (-1)) [Register "saddr"]
,Locate (-2)
,Inline "#stack1S0" []
,Inline "#heapRefHp" ["saddr"]
,Delete "saddr"
]++
map (SAM.Alloc . ("tr"++) . show) [1..n]++
map (\x->Copy (Memory "Hp" $ 3+x) [Register $ "tr"++show x]) [1..n]++
[Inline "#heap1Hp" []
,Inline "#stackNewS0" []
]++
map (\x->Move (Register $ "tr"++show x) [Memory "S0" $ x-1]) (reverse [1..n])++
map (Delete . ("tr"++) . show) [1..n]
compileCode m (Swap:is)=contWith m StackT is $
[SAM.Alloc "temp"
,Move (Memory "S0" 0) [Register "temp"]
,Move (Memory "S0" (-1)) [Memory "S0" 0]
,Move (Register "temp") [Memory "S0" (-1)]
,Delete "temp"
]
compileCode m (Push n:is)=contWith m StackT is $
[Inline "#stackNewS0" []
,Copy (Memory "S0" $ negate $ n+1) [Memory "S0" 0]
]
compileCode m (Slide n:is)=if n<=0 then error "Slide 0" else contWith m StackT is $
[Clear (Memory "S0" $ negate n)
,Move (Memory "S0" 0) [Memory "S0" $ negate n]
]++
map (Clear . Memory "S0" . negate) [1..n-1]++
[Locate $ negate n]
compileCode m (PushArg n:is)=contWith m StackT is $
[SAM.Alloc "aaddr"
,Copy (Memory "S0" $ negate n) [Register "aaddr"]
,Inline "#stack1S0" []
,Inline "#heapRefHp" ["aaddr"]
,Delete "aaddr"
,SAM.Alloc "arg"
,Copy (Memory "Hp" 4) [Register "arg"]
,Inline "#heap1Hp" []
,Inline "#stackNewS0" []
,Move (Register "arg") [Memory "S0" 0]
,Delete "arg"
]
compileCode m (Case cs:is)=contWith m Origin is $
[SAM.Alloc "saddr"
,Copy (Memory "S0" 0) [Register "saddr"]
,Inline "#stack1S0" []
,Inline "#heapRefHp" ["saddr"]
,Delete "saddr"
,SAM.Alloc "tag"
,Copy (Memory "Hp" 3) [Register "tag"]
,Dispatch "tag" $ map (second $ flip (contWith m HeapA) []) cs
,Delete "tag"
]
compileCode m (Update n:is)=contWith m HeapA is $
[SAM.Alloc "to"
,Move (Memory "S0" 0) [Register "to"]
,Locate (-1)
,SAM.Alloc "from"
,Copy (Memory "S0" $ 1-n) [Register "from"]
,Inline "#stack1S0" []
-- rewrite stack
,While (Memory "S0" 0)
[Inline "#rewriteS0" ["from","to"]
,Locate 1
]
,Locate (-1)
,Inline "#stack1S0" []
-- rewrite heap
,While (Memory "Hp" 0)
[SAM.Alloc "ntag"
,Copy (Memory "Hp" 2) [Register "ntag"]
,Dispatch "ntag"
[(appTag,
[Locate 3
,Inline "#rewriteHp" ["from","to"]
,Locate 1
,Inline "#rewriteHp" ["from","to"]
,Locate 3
])
,(scTag,
[Locate 6])
,(constTag,
[Locate 6])
,(structTag,
[SAM.Alloc "size"
,Copy (Memory "Hp" 0) [Register "size"]
,Val (Register "size") (-6)
,Locate 4
,While (Register "size")
[Inline "#rewriteHp" ["from","to"]
,Locate 1
,Val (Register "size") (-1)
]
,Delete "size"
,Locate 2
])
]
,Delete "ntag"
]
,Delete "from"
,Delete "to"
]
compileCode m (Pop n:is)=contWith m StackT is $
concat $ replicate n [Clear (Memory "S0" 0),Locate (-1)]
compileCode m (GMachine.Alloc n:is)=compileCode m $ replicate n (PushByte 0)++is
compileCode m (UError s:_)=Clear ptr:concatMap (\d->[Val ptr d,Output ptr]) ds
where
ds=head ns:zipWith (-) (tail ns) ns
ns=map ord s
ptr=Memory "S0" 0
compileCode m (Arith op:is)=contWith m StackT is $
[SAM.Alloc "x"
,SAM.Alloc "y"
,Move (Memory "S0" 0) [Register "x"]
,Move (Memory "S0" (-1)) [Register "y"]
,Locate (-2)
,Inline "#stack1S0" []
,Inline "#heapRefHp" ["x"]
,Copy (Memory "Hp" 3) [Register "x"]
,Inline "#heap1Hp" []
,Inline "#heapRefHp" ["y"]
,Delete "y"
,SAM.Alloc "temp"
,Copy (Memory "Hp" 3) [Register "temp"]
]++
f (Register "temp") (Register "x") op++
[Delete "temp"
,SAM.Alloc "addr"
,Inline "#heapNewHp" ["addr"]
,Clear (Memory "Hp" 0) ,Val (Memory "Hp" 0) 6
,Clear (Memory "Hp" 1) ,Val (Memory "Hp" 1) 0
,Clear (Memory "Hp" 2) ,Val (Memory "Hp" 2) $ tag op
,Clear (Memory "Hp" 3) ,Move (Register "x") [Memory "Hp" 3] ,Delete "x"
,Clear (Memory "Hp" 4) ,Copy (Register "addr") [Memory "Hp" 4]
,Clear (Memory "Hp" 5) ,Val (Memory "Hp" 5) 6
,Clear (Memory "Hp" 6)
,Inline "#heap1Hp" []
,Inline "#stackNewS0" []
,Move (Register "addr") [Memory "S0" 0]
,Delete "addr"
]
where
tag CCmp=structTag
tag _=constTag
f from to AAdd=[While from [Val from (-1),Val to 1]]
f from to ASub=[While from [Val from (-1),Val to (-1)]]
f from to CCmp=
[SAM.Alloc "t"
,Val (Register "t") 1
,While (Register "t")
[SAM.Alloc "s"
,Copy from [Register "s"]
,Val (Register "t") 1
,While (Register "s")
[Clear (Register "s")
,Val (Register "t") (-1)
]
,Copy to [Register "s"]
,While (Register "s")
[Clear (Register "s")
,Val (Register "t") (-1)
]
,Val (Register "s") 1
,While (Register "t")
[Clear (Register "t")
,Val (Register "s") (-1)
]
,Move (Register "s") [Register "t"]
,Delete "s"
,Val from (-1)
,Val to (-1)
]
,Val from 1
,Val to 1
,While from [Clear from,Val (Register "t") 1]
,While to [Clear to,Val (Register "t") 2]
,Move (Register "t") [to] -- 0:EQ 1:from>to 2:to<from
,Delete "t"
]
-- | G-machine intstruction
--
-- Note1: 'MkApp' 'Pack' ordering: first pushed -> last packed
--
-- Note2: 'PushArg' counts from top=0
data GMCode
=Slide Int -- ^ pop 1st...nth items
|Update Int -- ^ replace all reference to the nth address to 0th address.
|Pop Int -- ^ remove n items
|Push Int
|PushSC String
|Alloc Int
|Swap -- ^ used for implementing 'elimReduce'
|Reduce RHint -- ^ reduce stack top to WHNF
-- function
|MkApp -- ^ function must be pushed after arguments. then use this.
|PushArg Int
-- data structure
|Pack Int Int
|Case [(Int,[GMCode])]
|UnPack Int
-- arithmetic
|PushByte Int
|Arith ArithOp
-- error
|UError String -- ^ output the given string with undefined consequence
deriving(Show)
data ArithOp
=AAdd
|ASub
|CCmp
deriving(Show)
data RHint
=RByte
|RE
|RAny
deriving(Show)
pprint :: M.Map String [GMCode] -> String
pprint=compileSB . Group . intersperse EmptyLine . map (uncurry pprintGMF) . M.assocs
pprintGMF :: String -> [GMCode] -> SBlock
pprintGMF name cs=Group
[Line $ U.Pack [Prim name,Prim ":"]
,Indent $ Group $ map pprintGMC cs
]
pprintGMC :: GMCode -> SBlock
pprintGMC (Case cs)=Group
[Line $ Prim "Case"
,Indent $ Group $ map (f . first show) $ sortBy (comparing fst) cs
]
where f (label,xs)=Group [Line $ Span [Prim label,Prim "->"],Indent $ Group $ map pprintGMC xs]
pprintGMC c=Line $ Prim $ show c
-- | G-machine state for use in 'interpretGM'
type GMS=State GMInternal
type GMST m a=StateT GMInternal m a
data GMInternal=GMInternal{stack::Stack,heap::Heap} deriving(Show)
data GMNode
=App Address Address
|Const Int
|Struct Int [Address]
|Combinator String
deriving(Show)
type Stack=[Address]
type Heap=M.Map Address GMNode
newtype Address=Address Int deriving(Show,Eq,Ord)
interpret :: M.Map String [GMCode] -> IO ()
interpret fs=evalStateT (evalGM False fs []) (makeEmptySt "main")
interpretR :: M.Map String [GMCode] -> IO ()
interpretR fs=evalStateT (evalGM True fs []) (makeEmptySt "main")
makeEmptySt :: String -> GMInternal
makeEmptySt entry=runIdentity $ execStateT (alloc (Combinator entry) >>= push) $ GMInternal [] M.empty
-- | Interpret a single combinator and returns new combinator to be executed.
evalGM :: Bool -> M.Map String [GMCode] -> [GMCode] -> GMST IO ()
evalGM fl fs []=do
st<-get
liftIO $ putStrLn $ "GMi: aux:\n"++showState st
node<-refStack 0 >>= refHeap
case node of
App a0 a1 -> push a0 >> evalGM fl fs []
Combinator x -> evalGM fl fs (fs M.! x)
_ -> do x<-isRootNode
if x
then case node of
Struct 0 [f] -> do
pop
x<-liftIO (liftM ord getChar)
alloc (Const x) >>= push >> push f >> evalGM fl fs [MkApp]
Struct 1 [x,k] -> do
pop
refHeap x >>= (liftIO . putChar . unConst)
push k
evalGM fl fs []
Struct 2 [] -> pop >> return ()
else when fl $ do{[e,c]<-popn 2; Combinator x<-refHeap c; push e; evalGM fl fs (fs M.! x)}
where unConst (Const x)=chr x
evalGM fl fs (Reduce _:xs)=evalGM fl fs [] >> evalGM fl fs xs
evalGM fl fs (Push n:xs)=
refStack n >>= push >> evalGM fl fs xs
evalGM fl fs (PushArg n:xs)=do
App _ arg<-refStack n >>= refHeap
push arg
evalGM fl fs xs
evalGM fl fs (MkApp:xs)=do
[s0,s1]<-popn 2
alloc (App s0 s1) >>= push
evalGM fl fs xs
evalGM fl fs (Pack t n:xs)=do
ss<-popn n
alloc (Struct t ss) >>= push
evalGM fl fs xs
evalGM fl fs (PushSC n:xs)=do
alloc (Combinator n) >>= push
evalGM fl fs xs
evalGM fl fs (Slide n:xs)=do
x<-pop
popn n
push x
evalGM fl fs xs
evalGM fl fs (PushByte x:xs)=alloc (Const x) >>= push >> evalGM fl fs xs
evalGM fl fs (Case cs:xs)=do
Struct t _<-refStack 0 >>= refHeap
maybe (error $ "GMi: Case:"++show t) (evalGM fl fs . (++xs)) $ lookup t cs
evalGM fl fs (UnPack n:xs)=do
Struct _ cs<-pop >>= refHeap
when (length cs/=n) (error $ "GMi: UnPack arity error")
mapM_ push cs
evalGM fl fs xs
evalGM fl fs (Swap:xs)=popn 2 >>= mapM_ push >> evalGM fl fs xs
evalGM fl fs (Pop n:xs)=popn n >> evalGM fl fs xs
evalGM fl fs (Update n:xs)=do
t<-pop
f<-refStack $ n-1
modify $ \(GMInternal st hp)->GMInternal (map (fS f t) st) (M.map (fH f t) hp)
evalGM fl fs xs
where
fS f t x|x==f = t
|otherwise = x
fH f t (App x y)=App (fS f t x) (fS f t y)
fH f t (Struct tag xs)=Struct tag $ map (fS f t) xs
fH _ _ x=x
evalGM fl fs (GMachine.Alloc n:xs)=evalGM fl fs $ replicate n (PushByte 0)++xs
evalGM fl fs (Arith op:xs)=do
Const x<-pop >>= refHeap
Const y<-pop >>= refHeap
case op of
AAdd -> alloc (Const $ (x+y) `mod` 256) >>= push
ASub -> alloc (Const $ (x-y) `mod` 256) >>= push
CCmp -> alloc (Struct (if x==y then 0 else if x<y then 1 else 2) []) >>= push
evalGM fl fs xs
evalGM _ _ x=error $ "evalGM: unsupported: "++show x
showState :: GMInternal -> String
showState g=unlines $
unwords (map show st):map (\(k,v)->show k++":"++show v) (M.assocs hp)
where GMInternal st hp=GMachine.gc g
-- | do not modify pointers
gc :: GMInternal -> GMInternal
gc (GMInternal st hp)=GMInternal st hp'
where
hp'=M.filterWithKey (\k _ ->S.member k ns) $ hp
ns=S.unions $ map (collect hp) st
collect heap addr=S.insert addr $
case heap M.! addr of
App a0 a1 -> S.union (collect heap a0) (collect heap a1)
Struct _ as -> S.unions $ map (collect heap) as
_ -> S.empty
refHeap :: Monad m => Address -> GMST m GMNode
refHeap addr=liftM ((M.!addr) . heap) get
refStack :: Monad m => Int -> GMST m Address
refStack n=liftM ((!!n) . stack) get
isRootNode :: Monad m => GMST m Bool
isRootNode=do
n<-liftM (length . stack) get
return $ n==1
push :: Monad m => Address -> GMST m ()
push addr=do
GMInternal st h<-get
put $ GMInternal (addr:st) h
alloc :: Monad m => GMNode -> GMST m Address
alloc n=do
GMInternal st h<-get
let addr=if M.null h then Address 0 else let Address base=fst $ M.findMax h in Address (base+1)
put $ GMInternal st $ M.insert addr n h
return addr
pop :: Monad m => GMST m Address
pop=do
GMInternal (s:ss) h<-get
put $ GMInternal ss h
return s
popn :: Monad m => Int -> GMST m [Address]
popn=flip replicateM pop