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{-# LANGUAGE OverloadedStrings #-}
module Test.VeriFuzz.CodeGen where
import Data.Graph.Inductive (Graph, LNode, Node, indeg, labNodes,
nodes, outdeg, pre)
import Data.Maybe (fromMaybe)
import Data.Text (Text, empty, pack)
import Test.VeriFuzz.Types
fromNode :: Node -> Text
fromNode node = pack $ "w" <> show node
filterGr :: (Graph gr) => gr n e -> (Node -> Bool) -> [Node]
filterGr graph f =
filter f $ nodes graph
fromList :: [Text] -> Text
fromList = foldl mappend empty
safeTail :: [a] -> Maybe [a]
safeTail [] = Nothing
safeTail l = Just $ tail l
safeHead :: [a] -> Maybe a
safeHead [] = Nothing
safeHead l = Just $ head l
toOperator :: Gate -> Text
toOperator And = " & "
toOperator Or = " | "
toOperator Xor = " ^ "
statList :: Gate -> [Node] -> Maybe Text
statList g n = toStr <$> safeTail n
where
toStr = fromList . map ((<> toOperator g) . fromNode)
lastEl :: [Node] -> Maybe Text
lastEl n = fromNode <$> safeHead n
toStatement :: (Graph gr) => gr Gate e -> LNode Gate -> Text
toStatement graph (n, g) =
fromMaybe empty $ Just " assign " <> Just (fromNode n) <> Just " = " <> statList g nodeL <> lastEl nodeL <> Just ";\n"
where
nodeL = pre graph n
generate :: (Graph gr) => gr Gate e -> Text
generate graph =
"module generated_module(\n"
<> fromList (imap " input wire " ",\n" inp)
<> fromList (imap " output wire " ",\n" out)
<> ");\n"
<> fromList (map (toStatement graph) (labNodes graph))
<> "endmodule\n\nmodule main;\n initial\n begin\n "
<> "$display(\"Hello, world\");\n $finish;\n "
<> "end\nendmodule"
where
zero fun = (==0) . fun graph
inp = filterGr graph $ zero indeg
out = filterGr graph $ zero outdeg
imap b e = map ((\s -> b <> s <> e) . fromNode)
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