IsaPrint.hs revision a3acfcfbd58cc5529becffcda29f7de49f9500a7
{- |
Module : $Header$
Copyright : (c) University of Cambridge, Cambridge, England
adaption (c) Till Mossakowski, Uni Bremen 2002-2004
Licence : similar to LGPL, see HetCATS/LICENCE.txt or LIZENZ.txt
Maintainer : hets@tzi.de
Stability : provisional
Portability : portable
Printing functions for Isabelle logic.
-}
{-
todo: brackets in (? x . p x) ==> q
properly construct docs
-}
module Isabelle.IsaPrint where
import Isabelle.IsaSign
import Common.PrettyPrint
import Common.Lib.Pretty
import qualified Common.Lib.Map as Map
------------------- Printing functions -------------------
instance PrettyPrint IsaClass where
printText0 _ (IsaClass c _) = parens $ text c
instance PrintLaTeX Sentence where
printLatex0 = printText0
instance PrettyPrint Sentence where
printText0 _ = text . showTerm . senTerm
instance PrettyPrint Typ where
printText0 _ = text . showTyp 1000
showTyp :: Integer -> Typ -> String
showTyp pri (Type str _ _ [s,t])
| str == typeApplS =
if withTFrees t then showTyp pri t ++ sp ++ showTyp pri s
else showTyp pri s ++ sp ++ showTyp pri t
| str == funS =
bracketize (pri<=10) (showTyp 10 s ++ " => " ++ showTyp 11 t)
| str == prodS =
lb ++ showTyp pri s ++ " * " ++ showTyp pri t ++ rb
where withTFrees tv =
case tv of
TFree _ _ -> True
Type _ _ _ ts -> and (map withTFrees ts)
_ -> False
showTyp _ (Type name _ _ args) =
case args of
[] -> name
arg:[] -> show arg ++ sp ++ name
_ -> let (tyVars,types) = foldl split ([],[]) args
in
lb ++ concat (map ((sp++) . show) tyVars) ++
concat (map ((sp++) . show) types) ++ rb ++ name
where split (tv,ty) t = case t of
TFree _ _ -> (tv++[t],ty)
_ -> (tv,ty++[t])
showTyp _ (TFree v _) = "\'" ++ v
showTyp _ (TVar (v,_) _) = "?\'" ++ v
instance PrettyPrint TypeSig where
printText0 _ tysig =
if Map.isEmpty (arities tysig) then empty
else text $ Map.foldWithKey showTycon em (arities tysig)
where showTycon t arity' rest =
let arity = if null arity' then
error "IsaPrint.printText0 (TypeSig)"
else length (snd $ head arity') in
"typedecl "++
(if arity>0 then lb++concat (map ((" 'a"++).show) [1..arity])++rb
else em) ++ show t ++"\n"++rest
instance PrettyPrint Term where
printText0 _ = text . showTerm -- outerShowTerm
-- back to showTerm, because meta !! causes problems with show ?thesis
showTerm :: Term -> String
showTerm (Const c _ _) = c
showTerm (Free v _ _) = v
showTerm (Abs v _ t _) = lb++"% "++showTerm v++" . "++showTerm t++rb
showTerm (App (Const "All" _ _) (Abs v ty t _) _) =
showQuant "!" v ty t
showTerm (App (Const "Ex" _ _) (Abs v ty t _) _) =
showQuant "?" v ty t
showTerm (App (Const "Ex1" _ _) (Abs v ty t _) _) =
showQuant "?!" v ty t
showTerm (Case term alts _) =
let sAlts = map showCaseAlt alts
in
lb ++ "case" ++ sp ++ showTerm term ++ sp ++ "of"
++ sp ++ head sAlts
++ concat (map ((++) ("\n" ++ sp ++ sp ++ sp ++ "|" ++ sp))
(tail sAlts)) ++ rb
-- Just t1 `App` t2 left
showTerm (If t1 t2 t3 _) =
lb ++ "if" ++ sp ++ showTerm t1 ++ sp ++ "then" ++ sp
++ showTerm t2 ++ sp ++ "else" ++ sp ++ showTerm t3 ++ rb
showTerm (Let pts t _) = lb ++ "let" ++ sp ++ showPat False (head pts)
++ concat (map (showPat True) (tail pts))
++ sp ++ "in" ++ sp ++ showTerm t ++ rb
showTerm t = showPTree (toPrecTree t)
showPat :: Bool -> (Term, Term) -> String
showPat b (pat, term) =
let s = sp ++ showTerm pat ++ sp ++ "=" ++ sp ++ lb ++ showTerm term ++ rb
in
if b then ";" ++ s
else s
showCaseAlt :: (Term, Term) -> String
showCaseAlt (pat, term) =
-- trace ("Pat: " ++ show pat ++ "\n Term: " ++ show term ++ "\n")
showTerm pat ++ sp ++ "=>" ++ sp ++ showTerm term
showQuant :: String -> Term -> Typ -> Term -> String
showQuant s var typ term =
(s++sp++showTerm var++" :: "++showTyp 1000 typ++" . "++showTerm term)
outerShowTerm :: Term -> String
outerShowTerm (App (Const "All" _ _) (Abs v ty t _) _) =
outerShowQuant "!!" v ty t
outerShowTerm (App (App (Const "op -->" _ _) t1 _) t2 _) =
showTerm t1 ++ " ==> " ++ outerShowTerm1 t2
outerShowTerm t = showTerm t
outerShowTerm1 :: Term -> String
outerShowTerm1 (App (App (Const "op -->" _ _) t1 _) t2 _) =
showTerm t1 ++ " ==> " ++ outerShowTerm1 t2
outerShowTerm1 t = showTerm t
outerShowQuant :: String -> Term -> Typ -> Term -> String
outerShowQuant s var typ term =
(s++sp++showTerm var++" :: "++showTyp 1000 typ++" . "++outerShowTerm term)
{-
For nearly perfect parenthesis - they only appear when needed -
a formula/term is broken open in following pieces:
(logical) connector
/ \
/ \
formula's lhs formula's rhs
Every connector is annotated with its precedence, every 'unbreakable'
formula gets the lowest precedence.
-}
-- term annotated with precedence
data PrecTerm = PrecTerm Term Precedence deriving (Show)
type Precedence = Int
{- Precedences (descending): __ __ (Isabelle's term application),
application of HasCASL ops, <=>, =, /\, \/, =>
Associativity: = -- left
=> -- right
/\ -- right
\/ -- right
-}
data PrecTermTree = Node PrecTerm [PrecTermTree]
isaAppPrec :: Term -> PrecTerm
isaAppPrec t = PrecTerm t 0
appPrec :: Term -> PrecTerm
appPrec t = PrecTerm t 5
eqvPrec :: Term -> PrecTerm
eqvPrec t = PrecTerm t 7
eqPrec :: Term -> PrecTerm
eqPrec t = PrecTerm t 10
andPrec :: Term -> PrecTerm
andPrec t = PrecTerm t 20
orPrec :: Term -> PrecTerm
orPrec t = PrecTerm t 30
implPrec :: Term -> PrecTerm
implPrec t = PrecTerm t 40
noPrec :: Term -> PrecTerm
noPrec t = PrecTerm t (-10)
toPrecTree :: Term -> PrecTermTree
toPrecTree trm =
case trm of
App c1@(Const "All" _ _) a2@(Abs _ _ _ _) _->
Node (isaAppPrec (Const "QUANT" noType isaTerm))
[toPrecTree c1, toPrecTree a2]
App c1@(Const "Ex" _ _) a2@(Abs _ _ _ _) _ ->
Node (isaAppPrec (Const "QUANT" noType isaTerm))
[toPrecTree c1, toPrecTree a2]
App c1@(Const "Ex1" _ _) a2@(Abs _ _ _ _) _ ->
Node (isaAppPrec (Const "QUANT" noType isaTerm))
[toPrecTree c1, toPrecTree a2]
App t1 t2 _ ->
case t1 of
App t@(Const "op <=>" _ _) t3 _
-> Node (eqvPrec t)
[toPrecTree t3, toPrecTree t2]
App t@(Const "op =" _ _) t3 _
-> Node (eqPrec t)
[toPrecTree t3, toPrecTree t2]
App t@(Const "op &" _ _) t3 _
-> Node (andPrec t)
[toPrecTree t3, toPrecTree t2]
App t@(Const "op |" _ _) t3 _
-> Node (orPrec t)
[toPrecTree t3, toPrecTree t2]
App t@(Const "op -->" _ _) t3 _
-> Node (implPrec t)
[toPrecTree t3, toPrecTree t2]
App t@(Const _ _ _) t3 _
-> Node (appPrec t)
[toPrecTree t3, toPrecTree t2]
_ -> Node (isaAppPrec (Const "DUMMY" noType isaTerm))
[toPrecTree t1, toPrecTree t2]
_ -> Node (noPrec trm) []
data Assoc = LeftAs | NoAs | RightAs
showPTree :: PrecTermTree -> String
showPTree (Node (PrecTerm term _) []) = showTerm term
showPTree (Node (PrecTerm term pre) annos) =
let leftChild = head annos
rightChild = last annos
in
case term of
Const "op =" _ _ -> infixP pre "=" LeftAs leftChild rightChild
Const "op &" _ _ -> infixP pre "&" RightAs leftChild rightChild
Const "op |" _ _ -> infixP pre "|" RightAs leftChild rightChild
Const "op -->" _ _ -> infixP pre "-->" RightAs leftChild rightChild
Const "DUMMY" _ _ -> simpleInfix pre leftChild rightChild
Const "Pair" _ _ -> pair leftChild rightChild
Const "QUANT"_ _ -> quant leftChild rightChild
Const c _ _ -> prefixP pre c leftChild rightChild
_ -> showTerm term
{- Logical connectors: For readability and by habit they are written
at an infix position.
If the precedence of one side is weaker (here: higher number) than the
connector's one it is bracketed. Otherwise not.
-}
infixP :: Precedence -> String -> Assoc -> PrecTermTree -> PrecTermTree -> String
infixP pAdult stAdult assoc leftChild rightChild
| (pAdult < prLeftCld) && (pAdult < prRightCld) = both
| pAdult < prLeftCld =
case assoc of
LeftAs -> if pAdult == prRightCld then both else left
RightAs -> left
NoAs -> left
| pAdult < prRightCld =
case assoc of
LeftAs -> right
RightAs -> if pAdult == prLeftCld then both else right
NoAs -> right
| (pAdult == prLeftCld) && (pAdult == prRightCld) =
case assoc of
LeftAs -> right
RightAs -> left
NoAs -> no
| pAdult == prLeftCld =
case assoc of
LeftAs -> no
RightAs -> left
NoAs -> no
| pAdult == prRightCld =
case assoc of
LeftAs -> right
RightAs -> no
NoAs -> no
| otherwise = no
where prLeftCld = pr leftChild
prRightCld = pr rightChild
stLeftCld = showPTree leftChild
stRightCld = showPTree rightChild
left = lb++ stLeftCld ++rb++sp++ stAdult ++sp++ stRightCld
both = lb++ stLeftCld ++rb++sp++ stAdult ++sp++lb++ stRightCld ++rb
right = stLeftCld ++sp++ stAdult ++sp++lb++ stRightCld ++rb
no = stLeftCld ++sp++ stAdult ++sp++ stRightCld
{- Application of (HasCASL-)operations with two arguments.
Both arguments are usually bracketed, except single ones.
-}
prefixP :: Precedence -> String -> PrecTermTree -> PrecTermTree -> String
prefixP pAdult stAdult leftChild rightChild
| (pAdult <= prLeftCld) && (pAdult <= prRightCld) =
stAdult ++
sp++lb++ stLeftCld ++rb++
sp++lb++ stRightCld ++rb
| pAdult <= prLeftCld =
stAdult ++
sp++lb++ stLeftCld ++rb++
sp++ stRightCld
| pAdult <= prRightCld =
stAdult ++
sp++ stLeftCld ++
sp++lb++ stRightCld ++rb
| otherwise = stAdult ++
sp++ stLeftCld ++
sp++ stRightCld
where prLeftCld = pr leftChild
prRightCld = pr rightChild
stLeftCld = showPTree leftChild
stRightCld = showPTree rightChild
{- Isabelle application: An operation/a datatype-constructor is applied
to one argument. The whole expression is always bracketed.
-}
simpleInfix :: Precedence -> PrecTermTree -> PrecTermTree -> String
simpleInfix pAdult leftChild rightChild
| (pAdult < prLeftCld) && (pAdult < prRightCld) =
lbb++ stLeftCld ++rb++
sp++lb++ stRightCld ++rbb
| pAdult < prLeftCld =
lbb++ stLeftCld ++rb++
sp++ stRightCld ++rb
| pAdult < prRightCld =
lb++ stLeftCld ++sp++
lb++ stRightCld ++rbb
| otherwise = lb++ stLeftCld ++sp++
stRightCld ++rb
where prLeftCld = pr leftChild
prRightCld = pr rightChild
stLeftCld = showPTree leftChild
stRightCld = showPTree rightChild
{- Quantification _in_ Formulas
-}
quant :: PrecTermTree -> PrecTermTree -> String
quant (Node (PrecTerm (Const"All"_ _) _) [])
(Node (PrecTerm (Abs v ty t _) _) []) =
lb++showQuant "!" v ty t++rb
quant (Node (PrecTerm (Const"Ex"_ _) _) [])
(Node (PrecTerm (Abs v ty t _) _) []) =
lb++showQuant "?" v ty t++rb
quant (Node (PrecTerm (Const"Ex1"_ _) _) [])
(Node (PrecTerm (Abs v ty t _) _) []) =
lb++showQuant "?!" v ty t++rb
quant _ _ = error "[Isabelle.IsaPrint] Wrong quantification!?"
pr :: PrecTermTree -> Precedence
pr (Node (PrecTerm _ p) _) = p
-- Prints: (p1, p2)
pair :: PrecTermTree -> PrecTermTree -> String
pair leftChild rightChild = lb++showPTree leftChild++", "++
showPTree rightChild++rb
-- Not, =, and, or, -->: Absteigende Prio, alle rechtsassoz (ausser Not)
--sT t = trace ("[sT] "++st t++"\n") (showTerm 1000 t)
-- st (Const (c,_)) = "Const ("++c++")"
-- st (Free (v,_)) = "Free ("++v++")"
-- st (Abs (v,_,t)) = "%"++showTerm v++" . "++showTerm t
-- st (Const ("All",_) `App` Abs (v,ty,t)) =
-- ("! "++showTerm v++" :: "++show ty++" . "++showTerm t)
-- st (Const ("Ex",_) `App` Abs (v,_,t)) =
-- ( "? "++showTerm v++" . "++showTerm t)
-- st (Const ("Ex1",_) `App` Abs (v,_,t)) =
-- ( "?! "++showTerm v++" . "++showTerm t)
-- st (t1 `App` t2) = "App(["++st t1++"],["++st t2++"])"
instance PrettyPrint Sign where
printText0 ga sig = text
(baseSig sig) <> colon $$
printText0 ga (tsig sig) $$
showDataTypeDefs (dataTypeTab sig) $$
showsConstTab (constTab sig)
where
showsConstTab tab =
if Map.isEmpty tab then empty
else text("consts") $$ Map.foldWithKey showConst empty tab
showConst c t rest = text (show c ++ " :: " ++ "\"" ++ showTyp 1000 t
++ "\"" ++ showDecl c) $$ rest
showDecl c = sp ++ sp ++ sp ++ "( \"" ++ c ++ "\" )"
showDataTypeDefs dtDefs = vcat $ map (text . showDataTypeDef) dtDefs
showDataTypeDef [] = ""
showDataTypeDef (dt:dts) =
"datatype " ++ showDataType dt
++ (concat $ map (("and "++) . showDataType) dts) ++ "\n"
showDataType (_,[]) = error "IsaPrint.showDataType"
showDataType (t,op:ops) =
showTyp 1000 t ++ " = " ++ showOp op
++ (concat $ map ((" | "++) . showOp) ops)
showOp (opname,args) =
opname ++ (concat $ map ((sp ++) . showArg) args)
showArg arg = case arg of
TFree _ _-> show arg
_ -> "\"" ++ show arg ++ "\""
instance PrintLaTeX Sign where
printLatex0 = printText0
em :: String
em = ""
sp :: String
sp = " "
rb :: String
rb = ")"
rbb :: String
rbb = rb++rb
lb :: String
lb = "("
lbb :: String
lbb = lb++lb
bracketize :: Bool -> String -> String
bracketize b s = if b then lb++s++rb else s