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module FlatCurry.Show(showFlatProg,showFlatType,showFlatFunc,
showCurryType,showCurryExpr,showCurryId,showCurryVar)
where
import FlatCurry.Types
import List
import Char
showFlatProg :: Prog -> String
showFlatProg (Prog modname imports types funcs ops) =
" (Prog " ++ show modname
++ (if null imports then "\n []" else
"\n [" ++ showFlatListElems show imports ++ "]")
++ (if null types then "\n []" else
"\n [" ++ showFlatListElems showFlatType types ++ "\n ]")
++ "\n [" ++ showFlatListElems showFlatFunc funcs ++ "\n ]"
++ "\n " ++ showFlatList showFlatOp ops
++ "\n )\n"
showFlatVisibility Public = " Public "
showFlatVisibility Private = " Private "
showFlatFixity InfixOp = " InfixOp "
showFlatFixity InfixlOp = " InfixlOp "
showFlatFixity InfixrOp = " InfixrOp "
showFlatOp (Op name fix prec) =
"(Op " ++ show name ++ showFlatFixity fix ++ show prec ++ ")"
showFlatType :: TypeDecl -> String
showFlatType (Type name vis tpars consdecls) =
"\n (Type " ++ show name ++ showFlatVisibility vis
++ showFlatList show tpars
++ showFlatList showFlatCons consdecls ++ ")"
showFlatType (TypeSyn name vis tpars texp) =
"\n (TypeSyn " ++ show name ++ showFlatVisibility vis
++ showFlatList show tpars
++ showFlatTypeExpr texp ++ ")"
showFlatCons (Cons cname arity vis types) =
"(Cons " ++ show cname ++ " " ++ show arity
++ showFlatVisibility vis
++ showFlatList showFlatTypeExpr types ++ ")"
showFlatFunc :: FuncDecl -> String
showFlatFunc (Func name arity vis ftype rl) =
"\n (Func " ++ show name ++ " " ++ show arity ++ " "
++ showFlatVisibility vis ++
"\n " ++ showFlatTypeExpr ftype ++
"\n " ++ showFlatRule rl ++ ")"
showFlatRule (Rule params expr) =
" (Rule " ++ showFlatList show params
++ showFlatExpr expr ++ ")"
showFlatRule (External name) =
" (External " ++ show name ++ ")"
showFlatTypeExpr (FuncType t1 t2) =
"(FuncType " ++ showFlatTypeExpr t1 ++ " " ++ showFlatTypeExpr t2 ++ ")"
showFlatTypeExpr (TCons tc ts) =
"(TCons " ++ show tc
++ showFlatList showFlatTypeExpr ts ++ ")"
showFlatTypeExpr (TVar n) = "(TVar " ++ show n ++ ")"
showFlatCombType FuncCall = "FuncCall"
showFlatCombType ConsCall = "ConsCall"
showFlatCombType (FuncPartCall n) = "(FuncPartCall " ++ show n ++ ")"
showFlatCombType (ConsPartCall n) = "(ConsPartCall " ++ show n ++ ")"
showFlatExpr (Var n) = "(Var " ++ show n ++ ")"
showFlatExpr (Lit l) = "(Lit " ++ showFlatLit l ++ ")"
showFlatExpr (Comb ctype cf es) =
"(Comb " ++ showFlatCombType ctype ++ " "
++ show cf ++ showFlatList showFlatExpr es ++ ")"
showFlatExpr (Let bindings exp) =
"(Let " ++ showFlatList showFlatBinding bindings ++ showFlatExpr exp ++ ")"
where showFlatBinding (x,e) = "("++show x++","++showFlatExpr e++")"
showFlatExpr (Free xs e) =
"(Free " ++ showFlatList show xs ++ showFlatExpr e ++ ")"
showFlatExpr (Or e1 e2) =
"(Or " ++ showFlatExpr e1 ++ " " ++ showFlatExpr e2 ++ ")"
showFlatExpr (Case Rigid e bs) =
"(Case Rigid " ++ showFlatExpr e ++ showFlatList showFlatBranch bs ++ ")"
showFlatExpr (Case Flex e bs) =
"(Case Flex " ++ showFlatExpr e ++ showFlatList showFlatBranch bs ++ ")"
showFlatExpr (Typed e ty) =
"(Typed " ++ showFlatExpr e ++ ' ' : showFlatTypeExpr ty ++ ")"
showFlatLit (Intc i) = "(Intc " ++ show i ++ ")"
showFlatLit (Floatc f) = "(Floatc " ++ show f ++ ")"
showFlatLit (Charc c) = "(Charc " ++ show c ++ ")"
showFlatBranch (Branch p e) = "(Branch " ++ showFlatPattern p
++ showFlatExpr e ++ ")"
showFlatPattern (Pattern qn xs) =
"(Pattern " ++ show qn
++ showFlatList show xs ++ ")"
showFlatPattern (LPattern lit) = "(LPattern " ++ showFlatLit lit ++ ")"
showFlatList :: (a->String) -> [a] -> String
showFlatList format elems = " [" ++ showFlatListElems format elems ++ "] "
showFlatListElems :: (a->String) -> [a] -> String
showFlatListElems format elems = concat (intersperse "," (map format elems))
showCurryType :: ((String,String) -> String) -> Bool -> TypeExpr -> String
showCurryType _ _ (TVar i) = if i<5 then [chr (97+i)] else 't':show i
showCurryType tf nested (FuncType t1 t2) =
showBracketsIf nested
(showCurryType tf (isFuncType t1) t1 ++ " -> " ++
showCurryType tf False t2)
showCurryType tf nested (TCons tc ts)
| null ts = tf tc
| tc==("Prelude","[]") && (head ts == TCons ("Prelude","Char") [])
= "String"
| tc==("Prelude","[]")
= "[" ++ showCurryType tf False (head ts) ++ "]"
| take 2 (snd tc) == "(,"
= "(" ++ concat (intersperse "," (map (showCurryType tf False) ts)) ++ ")"
| otherwise
= showBracketsIf nested
(tf tc ++ concatMap (\t->' ':showCurryType tf True t) ts)
isFuncType (TVar _) = False
isFuncType (FuncType _ _) = True
isFuncType (TCons _ _) = False
showCurryExpr :: ((String,String) -> String) -> Bool -> Int -> Expr -> String
showCurryExpr _ _ _ (Var n) = showCurryVar n
showCurryExpr _ _ _ (Lit l) = showCurryLit l
showCurryExpr tf _ _ (Comb _ cf []) = showCurryId (tf cf)
showCurryExpr tf nested b (Comb _ cf [e]) =
showBracketsIf nested (showCurryId (tf cf) ++ " "
++ showCurryExpr tf True b e)
showCurryExpr tf nested b (Comb ct cf [e1,e2])
| cf==("Prelude","apply")
= showBracketsIf nested
(showCurryExpr tf True b e1 ++ " " ++ showCurryExpr tf True b e2)
| isAlpha (head (snd cf))
= showBracketsIf nested
(tf cf ++" "++ showCurryElems (showCurryExpr tf True b) [e1,e2])
| isFiniteList (Comb ct cf [e1,e2])
= if isStringConstant (Comb ct cf [e1,e2])
then "\"" ++ showCurryStringConstant (Comb ct cf [e1,e2]) ++ "\""
else "[" ++
concat (intersperse "," (showCurryFiniteList tf b (Comb ct cf [e1,e2])))
++ "]"
| snd cf == "(,)"
= "(" ++ showCurryExpr tf False b e1 ++ "," ++
showCurryExpr tf False b e2 ++ ")"
| otherwise
= showBracketsIf nested
(showCurryExpr tf True b e1 ++ " " ++ tf cf ++ " " ++
showCurryExpr tf True b e2 )
showCurryExpr tf nested b (Comb _ cf (e1:e2:e3:es))
| cf==("Prelude","if_then_else") && null es
= showBracketsIf nested
("\n" ++
sceBlanks b ++ " if " ++ showCurryExpr tf False (b+2) e1 ++ "\n" ++
sceBlanks b ++ " then " ++ showCurryExpr tf False (b+2) e2 ++ "\n" ++
sceBlanks b ++ " else " ++ showCurryExpr tf False (b+2) e3)
| take 2 (snd cf) == "(,"
= "(" ++
concat (intersperse "," (map (showCurryExpr tf False b) (e1:e2:e3:es)))
++ ")"
| otherwise
= showBracketsIf nested
(showCurryId (tf cf) ++ " "
++ showCurryElems (showCurryExpr tf True b) (e1:e2:e3:es))
showCurryExpr tf nested b (Let bindings exp) =
showBracketsIf nested
("\n"++sceBlanks b++"let " ++ concat (intersperse ("\n "++sceBlanks b)
(map (\ (x,e)->showCurryVar x ++" = "++showCurryExpr tf False (b+4) e) bindings)) ++
("\n"++sceBlanks b++" in ") ++ showCurryExpr tf False (b+4) exp)
showCurryExpr tf nested b (Free [] e) = showCurryExpr tf nested b e
showCurryExpr tf nested b (Free (x:xs) e) =
showBracketsIf nested
("let " ++ concat (intersperse "," (map showCurryVar (x:xs))) ++
" free in " ++ showCurryExpr tf False b e)
showCurryExpr tf nested b (Or e1 e2) =
showBracketsIf nested
(showCurryExpr tf True b e1 ++ " ? " ++ showCurryExpr tf True b e2)
showCurryExpr tf nested b (Case ctype e cs) =
showBracketsIf nested
((case ctype of Rigid -> "case "
Flex -> "fcase ") ++
showCurryExpr tf True b e ++ " of\n " ++
showCurryElems (showCurryCase tf (b+2)) cs ++ sceBlanks b)
showCurryExpr tf nested b (Typed e ty) =
showBracketsIf nested (showCurryExpr tf True b e ++ " :: " ++ showCurryType tf False ty)
showCurryVar i = "v" ++ show i
showCurryId name | isAlpha (head name) = name
| name == "[]" = name
| otherwise = ('(':name)++")"
showCurryLit (Intc i) = show i
showCurryLit (Floatc f) = show f
showCurryLit (Charc c) = show c
showCurryCase tf b (Branch (Pattern l vs) e) =
sceBlanks b ++ showPattern (tf l) vs
++ " -> " ++ showCurryExpr tf False b e ++ "\n"
where
showPattern c [] = c
showPattern c [x] = c ++ " " ++ showCurryVar x
showPattern c [x1,x2] =
if isAlpha (head c)
then c ++ " " ++ showCurryVar x1 ++ " " ++ showCurryVar x2
else if c=="(,)"
then "(" ++ showCurryVar x1 ++ "," ++ showCurryVar x2 ++ ")"
else showCurryVar x1 ++ " " ++ c ++ " " ++ showCurryVar x2
showPattern c (x1:x2:x3:xs) =
if take 2 c == "(,"
then "("++ concat (intersperse "," (map showCurryVar (x1:x2:x3:xs))) ++")"
else c ++ " " ++ showCurryElems showCurryVar (x1:x2:x3:xs)
showCurryCase tf b (Branch (LPattern l) e) =
sceBlanks b ++ showCurryLit l ++ " "
++ " -> " ++ showCurryExpr tf False b e ++ "\n"
showCurryFiniteList _ _ (Comb _ ("Prelude","[]") []) = []
showCurryFiniteList tf b (Comb _ ("Prelude",":") [e1,e2]) =
showCurryExpr tf False b e1 : showCurryFiniteList tf b e2
showCurryStringConstant (Comb _ ("Prelude","[]") []) = []
showCurryStringConstant (Comb _ ("Prelude",":") [e1,e2]) =
showCharExpr e1 ++ showCurryStringConstant e2
showCharExpr (Lit (Charc c))
| c=='"' = "\\\""
| c=='\'' = "\\'"
| c=='\n' = "\\n"
| o < 32 || o > 126 =
['\\',chr(o `div` 100 + 48), chr(((o `mod` 100) `div` 10 + 48)),chr(o `mod` 10 + 48)]
| otherwise = [c]
where
o = ord c
showCurryElems :: (a->String) -> [a] -> String
showCurryElems format elems =
concat (intersperse " " (map format elems))
showBracketsIf nested s = if nested then '(' : s ++ ")" else s
sceBlanks b = take b (repeat ' ')
isFiniteList :: Expr -> Bool
isFiniteList (Var _) = False
isFiniteList (Lit _) = False
isFiniteList (Comb _ name args)
| name==("Prelude","[]") && null args = True
| name==("Prelude",":") && length args == 2 = isFiniteList (args!!1)
| otherwise = False
isFiniteList (Let _ _) = False
isFiniteList (Free _ _) = False
isFiniteList (Or _ _) = False
isFiniteList (Case _ _ _) = False
isStringConstant :: Expr -> Bool
isStringConstant e = case e of
Comb _ name args -> (name==("Prelude","[]") && null args) ||
(name==("Prelude",":") && length args == 2 &&
isCharConstant (head args) && isStringConstant (args!!1))
_ -> False
isCharConstant :: Expr -> Bool
isCharConstant e = case e of
Lit (Charc _) -> True
_ -> False
|