module Language.Explorer.Basic
( Explorer
, execute
, executeAll
, revert
, dynamicRevert
, ExplorerM.toTree
, mkExplorerStack
, mkExplorerTree
, mkExplorerGraph
, mkExplorerGSS
, config
, currRef
, Ref
, deref
, getTrace
, getTraces
, getPathsFromTo
, getPathFromTo
, executionGraph
) where
import qualified Language.Explorer.Monadic as ExplorerM
import Control.Monad.Identity
import qualified Data.IntMap as IntMap
import Data.List
import Data.Functor
import Data.Foldable
import Data.Monoid ()
import Data.Graph.Inductive.Graph (emap)
-- We shadow instead of exporting directly to make the user interaction
-- the same.
type Ref = ExplorerM.Ref
type Explorer a b = ExplorerM.Explorer a Identity b ()
currRef :: Explorer a b -> Ref
currRef = ExplorerM.currRef
config :: Explorer a b -> b
config = ExplorerM.config
deref :: Explorer p c -> Ref -> Maybe c
deref = ExplorerM.deref
-- This should be able with func composition.
wrap :: Monad m => (a -> b -> b) -> a -> b -> m (b, ())
wrap def p e = return $ (def p e, ())
-- Constructor for a exploring interpreter.
mkExplorerStack:: (Show a, Eq a, Eq b) => (a -> b -> b) -> b -> Explorer a b
mkExplorerStack definterp conf = ExplorerM.mkExplorerStack (wrap definterp) conf
mkExplorerTree:: (Show a, Eq a, Eq b) => (a -> b -> b) -> b -> Explorer a b
mkExplorerTree definterp conf = ExplorerM.mkExplorerTree (wrap definterp) conf
mkExplorerGraph :: (Show a, Eq a, Eq b) => (a -> b -> b) -> b -> Explorer a b
mkExplorerGraph definterp conf = ExplorerM.mkExplorerGraph (wrap definterp) conf
mkExplorerGSS :: (Show a, Eq a, Eq b) => (a -> b -> b) -> b -> Explorer a b
mkExplorerGSS definterp conf = ExplorerM.mkExplorerGSS (wrap definterp) conf
execute :: (Eq c, Eq p) => p -> Explorer p c -> Explorer p c
execute p e = fst $ runIdentity $ ExplorerM.execute p e
executeAll :: (Eq c, Eq p) => [p] -> Explorer p c -> Explorer p c
executeAll p e = fst $ runIdentity $ ExplorerM.executeAll p e
dynamicRevert :: Bool -> Ref -> Explorer p c -> Maybe (Explorer p c)
dynamicRevert = ExplorerM.dynamicRevert
revert :: ExplorerM.Ref -> Explorer p c -> Maybe (Explorer p c)
revert = ExplorerM.revert
removeOutput :: ((Ref, c), (p, o), (Ref, c)) -> ((Ref, c), p, (Ref, c))
removeOutput (s, (p, _), t) = (s, p, t)
incomingEdges :: Ref -> Explorer p c -> [((Ref, c), p, (Ref, c))]
incomingEdges r e = map removeOutput $ ExplorerM.incomingEdges r e
getTrace :: Explorer p c -> [((Ref, c), p, (Ref, c))]
getTrace e = map removeOutput $ ExplorerM.getTrace e
getTraces :: Explorer p c -> [[((Ref, c), p, (Ref, c))]]
getTraces e = map (map removeOutput) $ ExplorerM.getTraces e
getPathsFromTo :: Explorer p c -> Ref -> Ref -> [[((Ref, c), p, (Ref, c))]]
getPathsFromTo e s t = map (map removeOutput) $ ExplorerM.getPathsFromTo e s t
getPathFromTo :: Explorer p c -> Ref -> Ref -> [((Ref, c), p, (Ref, c))]
getPathFromTo e s t = map removeOutput $ ExplorerM.getPathFromTo e s t
executionGraph :: Explorer p c -> (Ref, [Ref], [((Ref, c), p, (Ref, c))])
executionGraph e = (curr, nodes, map removeOutput graph)
where
(curr, nodes, graph) = ExplorerM.executionGraph e