-- Edited version 0.4 from hackage. -- Replaced the showAttr function to generate -- a html-label -- changed the showDot function. -- bugfix edge' -- | -- Module: Text.Dot -- Copyright: Andy Gill -- License: BSD3 -- -- Maintainer: Andy Gill -- Stability: unstable -- Portability: portable -- -- This module provides a simple interface for building .dot graph files, for input into the dot and graphviz tools. -- It includes a monadic interface for building graphs. module Dot ( -- * Dot Dot -- abstract -- * Nodes , node , NodeId -- abstract , userNodeId , userNode -- * Edges , edge , edge' , (.->.) -- * Showing a graph , showDot -- * Other combinators , scope , attribute , share , same , cluster -- * Simple netlist generation , netlistGraph ) where import Data.Char import qualified Data.Map as M import qualified Data.Set as S data DotGraph = DotGraph [GraphElement] data NodeId = NodeId String | UserNodeId Int instance Show NodeId where show (NodeId str) = str show (UserNodeId i) | i < 0 = "u_" ++ show (negate i) | otherwise = "u" ++ show i data GraphElement = GraphAttribute String String | GraphNode NodeId [(String,String)] | GraphEdge NodeId NodeId [(String,String)] | GraphEdge' NodeId (Maybe String) NodeId (Maybe String) [(String,String)] | Scope [GraphElement] | SubGraph NodeId [GraphElement] data Dot a = Dot { unDot :: Int -> ([GraphElement],Int,a) } instance Monad Dot where return a = Dot $ \ uq -> ([],uq,a) m >>= k = Dot $ \ uq -> case unDot m uq of (g1,uq',r) -> case unDot (k r) uq' of (g2,uq2,r2) -> (g1 ++ g2,uq2,r2) -- | 'node' takes a list of attributes, generates a new node, and gives a 'NodeId'. node :: [(String,String)] -> Dot NodeId node attrs = Dot $ \ uq -> let nid = NodeId $ "n" ++ show uq in ( [ GraphNode nid attrs ],succ uq,nid) -- | 'userNodeId' allows a user to use their own (Int-based) node id's, without needing to remap them. userNodeId :: Int -> NodeId userNodeId i = UserNodeId i -- | 'userNode' takes a NodeId, and adds some attributes to that node. userNode :: NodeId -> [(String,String)] -> Dot () userNode nId attrs = Dot $ \ uq -> ( [GraphNode nId attrs ],uq,()) -- | 'edge' generates an edge between two 'NodeId's, with attributes. edge :: NodeId -> NodeId -> [(String,String)] -> Dot () edge from to attrs = Dot (\ uq -> ( [ GraphEdge from to attrs ],uq,())) -- | 'edge' generates an edge between two 'NodeId's, with optional node sub-labels, and attributes. edge' :: NodeId -> Maybe String -> NodeId -> Maybe String -> [(String,String)] -> Dot () edge' from optF to optT attrs = Dot (\ uq -> ( [ GraphEdge' from optF to optT attrs ],uq,())) -- | '.->.' generates an edge between two 'NodeId's. (.->.) from to = edge from to [] -- | 'scope' groups a subgraph together; in dot these are the subgraphs inside "{" and "}". scope :: Dot a -> Dot a scope (Dot fn) = Dot (\ uq -> case fn uq of ( elems,uq',a) -> ([Scope elems],uq',a)) -- | 'share' is when a set of nodes share specific attributes. Usually used for layout tweaking. share :: [(String,String)] -> [NodeId] -> Dot () share attrs nodeids = Dot $ \ uq -> ( [ Scope ( [ GraphAttribute name val | (name,val) <- attrs] ++ [ GraphNode nodeid [] | nodeid <- nodeids ] ) ], uq, ()) -- | 'same' provides a combinator for a common pattern; a set of 'NodeId's with the same rank. same :: [NodeId] -> Dot () same = share [("rank","same")] -- | 'cluster' builds an explicit, internally named subgraph (called cluster). cluster :: Dot a -> Dot (NodeId,a) cluster (Dot fn) = Dot (\ uq -> let cid = NodeId $ "cluster_" ++ show uq in case fn (succ uq) of (elems,uq',a) -> ([SubGraph cid elems],uq',(cid,a))) -- | 'attribute' gives a attribute to the current scope. attribute :: (String,String) -> Dot () attribute (name,val) = Dot (\ uq -> ( [ GraphAttribute name val ],uq,())) -- 'showDot' renders a dot graph as a 'String'. showDot :: String -> Dot a -> (String, a) showDot header (Dot dm) = case dm 0 of (elems,_,a) -> ("digraph G {\n" ++ header ++ "\n" ++ unlines (map showGraphElement elems) ++ "\n}\n", a) showGraphElement (GraphAttribute name val) = showAttr (name,val) ++ ";" showGraphElement (GraphNode nid attrs) = show nid ++ showAttrs attrs ++ ";" showGraphElement (GraphEdge from to attrs) = show from ++ " -> " ++ show to ++ showAttrs attrs ++ ";" showGraphElement (GraphEdge' from optF to optT attrs) = showName from optF ++ " -> " ++ showName to optT ++ showAttrs attrs ++ ";" where showName n Nothing = show n showName n (Just t) = show n ++ ":" ++ t showGraphElement (Scope elems) = "{\n" ++ unlines (map showGraphElement elems) ++ "\n}" showGraphElement (SubGraph nid elems) = "subgraph " ++ show nid ++ " {\n" ++ unlines (map showGraphElement elems) ++ "\n}" showAttrs [] = "" showAttrs xs = "[" ++ showAttrs' xs ++ "]" where -- never empty list showAttrs' [a] = showAttr a showAttrs' (a:as) = showAttr a ++ "," ++ showAttrs' as showAttr (name,val) = name ++ "=" ++ valEsc where valEsc | valIsHtml = val | otherwise = "\"" ++ foldr showsDotChar "" val ++ "\"" valIsHtml = name == "label" && not (null val) && head val == '<' showsDotChar '"' = ("\\\"" ++) showsDotChar '\\' = ("\\\\" ++) showsDotChar x = showLitChar x -- | 'netlistGraph' generates a simple graph from a netlist. netlistGraph :: (Ord a) => (b -> [(String,String)]) -- ^ Attributes for each node -> (b -> [a]) -- ^ Out edges leaving each node -> [(a,b)] -- ^ The netlist -> Dot () netlistGraph attrFn outFn assocs = do let nodes = S.fromList $ [ a | (a,_) <- assocs ] let outs = S.fromList $ [ o | (_,b) <- assocs , o <- outFn b ] nodeTab <- sequence [ do nd <- node (attrFn b) return (a,nd) | (a,b) <- assocs ] otherTab <- sequence [ do nd <- node [] return (o,nd) | o <- S.toList outs , o `S.notMember` nodes ] let fm = M.fromList (nodeTab ++ otherTab) sequence_ [ (fm M.! src) .->. (fm M.! dst) | (dst,b) <- assocs , src <- outFn b ] return ()