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For SyntaxGraph, use a data type (SgSink) for sinks.
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@ -20,12 +20,12 @@ import Language.Haskell.Exts(Decl(..), parseDecl, Name(..), Pat(..), Rhs(..),
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Stmt(..), Binds(..), Alt(..), Module(..), SpecialCon(..), prettyPrint)
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import GraphAlgorithms(collapseNodes)
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import TranslateCore(Reference, SyntaxGraph(..), EvalContext, GraphAndRef, Sink, SgBind(..),
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import TranslateCore(Reference, SyntaxGraph(..), EvalContext, GraphAndRef, SgSink(..), SgBind(..),
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syntaxGraphFromNodes, syntaxGraphFromNodesEdges, getUniqueName, combineExpressions,
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edgesForRefPortList, makeApplyGraph,
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namesInPattern, lookupReference, deleteBindings, makeEdges,
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makeBox, nTupleString, nListString,
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syntaxGraphToFglGraph, getUniqueString)
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syntaxGraphToFglGraph, getUniqueString, bindsToSyntaxGraph)
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import Types(NameAndPort(..), IDState,
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initialIdState, Edge, SyntaxNode(..), IngSyntaxGraph, NodeName, Port(..), SgNamedNode,
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LikeApplyFlavor(..))
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@ -48,9 +48,6 @@ qOpToExp :: QOp -> Exp
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qOpToExp (QVarOp n) = Var n
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qOpToExp (QConOp n) = Con n
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bindsToSyntaxGraph :: [SgBind] -> SyntaxGraph
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bindsToSyntaxGraph binds = SyntaxGraph mempty mempty mempty binds mempty
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-- | Make a syntax graph that has the bindings for a list of "as pattern" (@) names.
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makeAsBindGraph :: Reference -> [Maybe String] -> SyntaxGraph
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makeAsBindGraph ref asNames = bindsToSyntaxGraph $ catMaybes $ fmap makeBind asNames where
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@ -106,7 +103,7 @@ evalLit (Exts.PrimString x) = makeLiteral x
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-- BEGIN evalPApp
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-- TODO Refactor decideIfNested and makePatternGraph
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decideIfNested :: ((SyntaxGraph, t1), t) ->
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(Maybe ((SyntaxGraph, t1), t), Maybe SgNamedNode, [Sink], [SgBind], [(NodeName, NodeName)])
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(Maybe ((SyntaxGraph, t1), t), Maybe SgNamedNode, [SgSink], [SgBind], [(NodeName, NodeName)])
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decideIfNested ((SyntaxGraph [nameAndIcon] [] sinks bindings eMap, _), _) = (Nothing, Just nameAndIcon, sinks, bindings, eMap)
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decideIfNested valAndPort = (Just valAndPort, Nothing, [], [], [])
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@ -561,7 +558,7 @@ generalEvalLambda context patterns rhsEvalFun = do
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icons = [(lambdaName, FunctionDefNode (length patterns))]
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returnPort = nameAndPort lambdaName (Port 0)
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(newEdges, newSinks) = case rhsRef of
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Left s -> (patternEdges, [(s, returnPort)])
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Left s -> (patternEdges, [SgSink s returnPort])
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Right rhsPort -> (makeSimpleEdge (rhsPort, returnPort) : patternEdges, mempty)
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finalGraph = SyntaxGraph icons newEdges newSinks newBinds mempty
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@ -669,7 +666,7 @@ evalPatBind c (PatBind _ pat rhs maybeWhereBinds) = do
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(Left s) -> (mempty, mempty, [SgBind s rhsRef])
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(Right patPort) -> case rhsRef of
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-- TODO This edge/sink should have a special arrow head to indicate an input to a pattern.
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(Left rhsStr) -> (mempty, [(rhsStr, patPort)], mempty)
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(Left rhsStr) -> (mempty, [SgSink rhsStr patPort], mempty)
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(Right rhsPort) -> ([makeSimpleEdge (rhsPort, patPort)], mempty, mempty)
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asBindGraph = makeAsBindGraph rhsRef [patAsName]
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gr = asBindGraph <> SyntaxGraph mempty newEdges newSinks bindings mempty
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@ -3,10 +3,11 @@ module TranslateCore(
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SyntaxGraph(..),
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EvalContext,
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GraphAndRef,
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Sink,
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SgSink(..),
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SgBind(..),
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syntaxGraphFromNodes,
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syntaxGraphFromNodesEdges,
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bindsToSyntaxGraph,
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getUniqueName,
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getUniqueString,
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edgesForRefPortList,
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@ -48,13 +49,15 @@ type Reference = Either String NameAndPort
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data SgBind = SgBind String Reference deriving (Eq, Show, Ord)
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data SgSink = SgSink String NameAndPort deriving (Eq, Ord, Show)
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-- TODO Replace lists with sets
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-- | SyntaxGraph is an abstract representation for Haskell syntax. SyntaxGraphs are
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-- generated from the Haskell syntax tree, and are used to generate Drawings
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data SyntaxGraph = SyntaxGraph {
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sgNodes :: [SgNamedNode],
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sgEdges :: [Edge],
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sgSinks :: [(String, NameAndPort)],
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sgSinks :: [SgSink],
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sgBinds :: [SgBind],
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-- sgEmbedMap keeps track of nodes embedded in other nodes. If (child, parent) is in the Map, then child is embedded inside parent.
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sgEmbedMap :: [(NodeName, NodeName)]
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@ -70,7 +73,6 @@ instance Monoid SyntaxGraph where
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type EvalContext = [String]
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type GraphAndRef = (SyntaxGraph, Reference)
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type Sink = (String, NameAndPort)
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sgBindToString :: SgBind -> String
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sgBindToString (SgBind s _) = s
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@ -84,6 +86,9 @@ syntaxGraphFromNodes icons = SyntaxGraph icons mempty mempty mempty mempty
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syntaxGraphFromNodesEdges :: [(NodeName, SyntaxNode)] -> [Edge] -> SyntaxGraph
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syntaxGraphFromNodesEdges icons edges = SyntaxGraph icons edges mempty mempty mempty
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bindsToSyntaxGraph :: [SgBind] -> SyntaxGraph
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bindsToSyntaxGraph binds = SyntaxGraph mempty mempty mempty binds mempty
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-- TODO Remove string parameter
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getUniqueName :: String -> State IDState NodeName
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getUniqueName _ = fmap NodeName getId
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@ -98,7 +103,7 @@ edgesForRefPortList inPattern portExpPairs = mconcat $ fmap makeGraph portExpPai
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makeGraph (ref, port) = case ref of
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Left str -> if inPattern
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then SyntaxGraph mempty mempty mempty [SgBind str (Right port)] mempty
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else SyntaxGraph mempty mempty [(str, port)] mempty mempty
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else SyntaxGraph mempty mempty [SgSink str port] mempty mempty
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Right resultPort -> SyntaxGraph mempty [Edge edgeOpts noEnds connection] mempty mempty mempty where
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connection = if inPattern
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-- If in a pattern, then the port on the case icon is the data source.
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@ -111,7 +116,7 @@ combineExpressions inPattern portExpPairs = mconcat $ fmap makeGraph portExpPair
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makeGraph ((graph, ref), port) = graph <> case ref of
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Left str -> if inPattern
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then SyntaxGraph mempty mempty mempty [SgBind str (Right port)] mempty
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else SyntaxGraph mempty mempty [(str, port)] mempty mempty
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else SyntaxGraph mempty mempty [SgSink str port] mempty mempty
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Right resultPort -> SyntaxGraph mempty [Edge edgeOpts noEnds (resultPort, port)] mempty mempty mempty
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-- qualifyNameAndPort :: String -> NameAndPort -> NameAndPort
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@ -153,14 +158,14 @@ lookupReference bindings ref@(Left originalS) = lookupHelper ref where
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deleteBindings :: SyntaxGraph -> SyntaxGraph
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deleteBindings (SyntaxGraph a b c _ e) = SyntaxGraph a b c mempty e
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makeEdgesCore :: [Sink] -> [SgBind] -> ([Sink], [Edge])
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makeEdgesCore :: [SgSink] -> [SgBind] -> ([SgSink], [Edge])
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makeEdgesCore sinks bindings = partitionEithers $ fmap renameOrMakeEdge sinks
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where
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renameOrMakeEdge :: (String, NameAndPort) -> Either (String, NameAndPort) Edge
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renameOrMakeEdge orig@(s, destPort) = case lookup s (fmap sgBindToTuple bindings) of
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renameOrMakeEdge :: SgSink -> Either SgSink Edge
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renameOrMakeEdge orig@(SgSink s destPort) = case lookup s (fmap sgBindToTuple bindings) of
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Just ref -> case lookupReference bindings ref of
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(Right sourcePort) -> Right $ makeSimpleEdge (sourcePort, destPort)
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(Left newStr) -> Left (newStr, destPort)
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(Left newStr) -> Left $ SgSink newStr destPort
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Nothing -> Left orig
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makeEdges :: SyntaxGraph -> SyntaxGraph
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