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module Grasp.Monad (
GraspM,
construct,
finalise,
getReadHandle,
getWriteHandle,
updateIP,
pushIP,
popIP,
peekIP,
nextIP,
nodesOut
) where
import System.IO( Handle, FilePath, IOMode )
import qualified System.IO as IO
import qualified System.Random as Random
import Control.Monad.Trans.State.Lazy( StateT )
import qualified Control.Monad.Trans.State.Lazy as State
import qualified Control.Monad as Monad
import Control.Monad.IO.Class( liftIO )
import qualified Data.Maybe as Maybe
import qualified Data.List as List
import Data.Map( Map )
import qualified Data.Map as Map
import Grasp.Graph( Node, LNode, LEdge, Gr )
import qualified Grasp.Graph as Graph
import Grasp.IP( IP )
import qualified Grasp.IP as IP
import Grasp.GNode( GNode, Instruction )
import qualified Grasp.GNode as GN
import Grasp.GEdge( GEdge, EdgeLabel )
import qualified Grasp.GEdge as GE
type GraspM a = StateT GraspProgram IO a
data GraspProgram = GraspProgram { programGraph :: Gr Instruction EdgeLabel
, instPtrs :: [IP]
, fileHandles :: Map FilePath Handle }
deriving (Show, Eq)
construct :: ([GNode],[GEdge]) -> GraspM ()
construct (n,e) = do
Monad.when (multiNodes n) (error "node declared multiple times")
Monad.when (unconnected n e) (error "unconnected edge")
Monad.when (multiNames n e) (error "node with multiple names")
Monad.when (numericName n e) (error "node with a numeric name")
Monad.when (noMain n e) (error "could not find grasp:main")
let graph = Graph.mkGraph (map GN.toLNode n) (map GE.toLEdge e)
ips = map IP.singleton (nodesWithName n e "grasp:main")
handles = Map.empty
State.put (GraspProgram graph ips handles)
finalise :: GraspM () -> IO ([GNode],[GEdge])
finalise s = do
p <- State.execStateT s (GraspProgram Graph.empty [] Map.empty)
(mapM_ IO.hClose) . Map.elems . fileHandles $ p
let gr = programGraph p
(nodes, edges) = (Graph.labNodes gr, Graph.labEdges gr)
return (map GN.mkGNode nodes, map GE.mkGEdge edges)
multiNodes :: [GNode] -> Bool
multiNodes ns = (ns == (List.nubBy (\x y -> GN.toNode x == GN.toNode y) ns))
unconnected :: [GNode] -> [GEdge] -> Bool
unconnected ns es =
let nodeList = map GN.toNode ns
unconnectedEdges = filter (\x -> GE.toSrc x `notElem` nodeList || GE.toDest x `notElem` nodeList) es
in unconnectedEdges /= []
multiNames :: [GNode] -> [GEdge] -> Bool
multiNames ns es =
let named = map fst (nameNodeList ns es)
in named == (List.nub named)
numericName :: [GNode] -> [GEdge] -> Bool
numericName ns es =
let names = map snd (nameNodeList ns es)
in any (\x -> Maybe.isJust (GN.instToFloat (GN.toInst x))) names
noMain :: [GNode] -> [GEdge] -> Bool
noMain ns es =
let names = map snd (nameNodeList ns es)
mains = filter ((== (GN.mkInst "grasp:main")) . GN.toInst) names
in length mains /= 0
getWriteHandle :: FilePath -> GraspM Handle
getWriteHandle path = do
program <- State.get
let (gr, ptrs, handles) = ((programGraph program), (instPtrs program), (fileHandles program))
case (Map.lookup path handles) of
Nothing -> do
h <- liftIO (IO.openFile path IO.AppendMode)
State.put (GraspProgram gr ptrs (Map.insert path h handles))
return h
Just x -> do
w <- liftIO (IO.hIsWritable x)
if (not w) then do
liftIO (IO.hClose x)
h <- liftIO (IO.openFile path IO.AppendMode)
State.put (GraspProgram gr ptrs (Map.insert path h handles))
return h
else return x
getReadHandle :: FilePath -> GraspM Handle
getReadHandle path = do
program <- State.get
let (gr, ptrs, handles) = ((programGraph program), (instPtrs program), (fileHandles program))
case (Map.lookup path (fileHandles program)) of
Nothing -> do
h <- liftIO (IO.openFile path IO.ReadMode)
State.put (GraspProgram gr ptrs (Map.insert path h handles))
return h
Just x -> do
r <- liftIO (IO.hIsReadable x)
if (not r) then do
liftIO (IO.hClose x)
h <- liftIO (IO.openFile path IO.ReadMode)
State.put (GraspProgram gr ptrs (Map.insert path h handles))
return h
else return x
-- fix this later so it doesn't required unconnected edge checking first
nameNodeList :: [GNode] -> [GEdge] -> [(GNode,GNode)]
nameNodeList ns es =
let nameEdges = filter ((== (GE.mkLabel "name")) . GE.toLabel) es
findNode n = Maybe.fromJust (List.find ((== n) . GN.toNode) ns)
in map (\x -> (findNode (GE.toSrc x), findNode (GE.toDest x))) nameEdges
nodesWithName :: [GNode] -> [GEdge] -> String -> [GNode]
nodesWithName ns es name =
(map fst) . (filter (\x -> (GN.toInst . snd $ x) == (GN.mkInst name))) $ (nameNodeList ns es)
updateIP :: GraspM ()
updateIP = do
program <- State.get
curNode <- peekIP
Monad.when (Maybe.isJust curNode) (do
nexts <- nodesOut (GE.mkLabel "next") (Maybe.fromJust curNode)
r <- liftIO (Random.getStdRandom (Random.randomR (0, length nexts - 1)))
let ips = instPtrs program
updated = if (length nexts == 0) then IP.empty else IP.shift (nexts !! r) (head ips)
ips' = updated:(tail ips)
State.put (GraspProgram (programGraph program) ips' (fileHandles program)) )
pushIP :: GNode -> GraspM ()
pushIP n = do
program <- State.get
let ips = instPtrs program
ips' = if (length ips == 0) then [] else (IP.push n (head ips)):(tail ips)
State.put (GraspProgram (programGraph program) ips' (fileHandles program))
popIP :: GraspM ()
popIP = do
program <- State.get
let ips = instPtrs program
ips' = if (length ips == 0) then [] else (IP.pop (head ips)):(tail ips)
State.put (GraspProgram (programGraph program) ips' (fileHandles program))
peekIP :: GraspM (Maybe GNode)
peekIP = do
program <- State.get
let ips = instPtrs program
if (length ips == 0) then return Nothing else return (IP.peek (head ips))
nextIP :: GraspM ()
nextIP = do
program <- State.get
let ips = instPtrs program
ips' = if (length ips == 0)
then []
else if (IP.isEmpty (head ips))
then tail ips
else (tail ips) ++ [head ips]
State.put (GraspProgram (programGraph program) ips' (fileHandles program))
nodesOut :: EdgeLabel -> GNode -> GraspM [GNode]
nodesOut s n = do
program <- State.get
curNode <- peekIP
let gr = programGraph program
nout = Graph.lsuc gr (GN.toNode (Maybe.fromJust curNode))
filtered = filter ((== s) . snd) nout
result = map (\(x,y) -> GN.mkGNode (x, Maybe.fromJust (Graph.lab gr x))) filtered
if (Maybe.isNothing curNode) then return [] else return result
|
