changed names of resource-1.3; added a note on homepage on release

28 files changed, 8306 insertions, 0 deletions

diff --git a/src/Transfer/CompilerAPI.hs b/src/Transfer/CompilerAPI.hs
new file mode 100644
index 000000000..38cb58dd0
--- /dev/null
+++ b/src/Transfer/CompilerAPI.hs
@@ -0,0 +1,75 @@
+module Transfer.CompilerAPI where
+
+import Transfer.Syntax.Lex
+import Transfer.Syntax.Par
+import Transfer.Syntax.Print
+import Transfer.Syntax.Abs
+import Transfer.Syntax.Layout
+
+import Transfer.ErrM
+import Transfer.SyntaxToCore
+
+import Transfer.PathUtil
+
+import Data.List
+import System.Directory
+
+
+-- | Compile a source module file to a a code file.
+compileFile :: [FilePath]  -- ^ directories to look for imported modules in
+            -> FilePath    -- ^ source module file
+            -> IO FilePath -- ^ path to the core file that was written
+compileFile path f = do
+                     ds <- loadModule path f
+                     s <- compile ds
+                     writeFile coreFile s
+                     return coreFile
+  where coreFile = replaceFilenameSuffix f "trc"
+
+-- | Compile a self-contained list of declarations to a core program.
+compile :: Monad m => [Decl] -> m String
+compile m = return (printTree $ declsToCore m)
+
+-- | Load a source module file and all its dependencies.
+loadModule :: [FilePath] -- ^ directories to look for imported modules in
+           -> FilePath   -- ^ source module file
+           -> IO [Decl]
+loadModule = loadModule_ []
+  where 
+  loadModule_ ms path f =
+    do
+    s <- readFile f
+    Module is ds <- case pModule (myLLexer s) of
+                     Bad e    -> fail $ "Parse error in " ++ f ++ ": " ++ e
+                     Ok  m    -> return m 
+    let load = [ i | Import (Ident i) <- is ] \\ ms
+    let path' = directoryOf f : path
+    files <- mapM (findFile path' . (++".tra")) load
+    dss <- mapM (loadModule_ (load++ms) path) files
+    return $ concat (dss++[ds])
+
+myLLexer :: String -> [Token]
+myLLexer = resolveLayout True . myLexer
+
+-- | Find a file in one of the given directories.
+--   Fails if the file was not found.
+findFile :: [FilePath] -- ^ directories to look in
+          -> FilePath   -- ^ file name to find
+          -> IO FilePath
+findFile path f = 
+    do
+    mf <- findFileM path f
+    case mf of
+        Nothing -> fail $ f ++ " not found in path: " ++ show path
+        Just f' -> return f'
+
+-- | Find a file in one of the given directories.             
+findFileM :: [FilePath] -- ^ directories to look in
+          -> FilePath   -- ^ file name to find
+          -> IO (Maybe FilePath)
+findFileM []     _ = return Nothing
+findFileM (p:ps) f = 
+    do
+    let f' = p ++ "/" ++ f
+    e <- doesFileExist f'
+    if e then return (Just f') else findFileM ps f
diff --git a/src/Transfer/Core/Abs.hs b/src/Transfer/Core/Abs.hs
new file mode 100644
index 000000000..8306d5b46
--- /dev/null
+++ b/src/Transfer/Core/Abs.hs
@@ -0,0 +1,267 @@
+{-# OPTIONS_GHC -fglasgow-exts #-}
+module Transfer.Core.Abs (Tree(..), Module, Decl, ConsDecl, Pattern, FieldPattern, PatternVariable, Exp, LetDef, Case, FieldType, FieldValue, TMeta, CIdent, composOp, composOpM, composOpM_, composOpMPlus, composOpMonoid, composOpFold, compos, johnMajorEq) where
+
+import Control.Monad (ap,MonadPlus,msum,mplus,mzero)
+import Control.Monad.Identity
+import Data.Monoid
+
+-- Haskell module generated by the BNF converter
+
+data Module_
+type Module = Tree Module_
+data Decl_
+type Decl = Tree Decl_
+data ConsDecl_
+type ConsDecl = Tree ConsDecl_
+data Pattern_
+type Pattern = Tree Pattern_
+data FieldPattern_
+type FieldPattern = Tree FieldPattern_
+data PatternVariable_
+type PatternVariable = Tree PatternVariable_
+data Exp_
+type Exp = Tree Exp_
+data LetDef_
+type LetDef = Tree LetDef_
+data Case_
+type Case = Tree Case_
+data FieldType_
+type FieldType = Tree FieldType_
+data FieldValue_
+type FieldValue = Tree FieldValue_
+data TMeta_
+type TMeta = Tree TMeta_
+data CIdent_
+type CIdent = Tree CIdent_
+
+data Tree :: * -> * where
+    Module :: [Decl] -> Tree Module_
+    DataDecl :: CIdent -> Exp -> [ConsDecl] -> Tree Decl_
+    TypeDecl :: CIdent -> Exp -> Tree Decl_
+    ValueDecl :: CIdent -> Exp -> Tree Decl_
+    ConsDecl :: CIdent -> Exp -> Tree ConsDecl_
+    PCons :: CIdent -> [Pattern] -> Tree Pattern_
+    PVar :: PatternVariable -> Tree Pattern_
+    PRec :: [FieldPattern] -> Tree Pattern_
+    PStr :: String -> Tree Pattern_
+    PInt :: Integer -> Tree Pattern_
+    FieldPattern :: CIdent -> Pattern -> Tree FieldPattern_
+    PVVar :: CIdent -> Tree PatternVariable_
+    PVWild :: Tree PatternVariable_
+    ELet :: [LetDef] -> Exp -> Tree Exp_
+    ECase :: Exp -> [Case] -> Tree Exp_
+    EAbs :: PatternVariable -> Exp -> Tree Exp_
+    EPi :: PatternVariable -> Exp -> Exp -> Tree Exp_
+    EApp :: Exp -> Exp -> Tree Exp_
+    EProj :: Exp -> CIdent -> Tree Exp_
+    ERecType :: [FieldType] -> Tree Exp_
+    ERec :: [FieldValue] -> Tree Exp_
+    EVar :: CIdent -> Tree Exp_
+    EType :: Tree Exp_
+    EStr :: String -> Tree Exp_
+    EInteger :: Integer -> Tree Exp_
+    EDouble :: Double -> Tree Exp_
+    EMeta :: TMeta -> Tree Exp_
+    LetDef :: CIdent -> Exp -> Tree LetDef_
+    Case :: Pattern -> Exp -> Exp -> Tree Case_
+    FieldType :: CIdent -> Exp -> Tree FieldType_
+    FieldValue :: CIdent -> Exp -> Tree FieldValue_
+    TMeta :: String -> Tree TMeta_
+    CIdent :: String -> Tree CIdent_
+
+composOp :: (forall a. Tree a -> Tree a) -> Tree c -> Tree c
+composOp f = runIdentity . composOpM (Identity . f)
+
+composOpM :: Monad m => (forall a. Tree a -> m (Tree a)) -> Tree c -> m (Tree c)
+composOpM = compos return ap
+
+composOpM_ :: Monad m => (forall a. Tree a -> m ()) -> Tree c -> m ()
+composOpM_ = composOpFold (return ()) (>>)
+
+composOpMPlus :: MonadPlus m => (forall a. Tree a -> m b) -> Tree c -> m b
+composOpMPlus = composOpFold mzero mplus
+
+composOpMonoid :: Monoid m => (forall a. Tree a -> m) -> Tree c -> m
+composOpMonoid = composOpFold mempty mappend
+
+newtype C b a = C { unC :: b }
+composOpFold :: b -> (b -> b -> b) -> (forall a. Tree a -> b) -> Tree c -> b
+composOpFold z c f = unC . compos (\_ -> C z) (\(C x) (C y) -> C (c x y)) (C . f)
+
+compos :: (forall a. a -> m a) 
+       -> (forall a b. m (a -> b) -> m a -> m b) 
+       -> (forall a. Tree a -> m (Tree a)) -> Tree c -> m (Tree c)
+compos r a f t = case t of
+    Module decls -> r Module `a` foldr (a . a (r (:)) . f) (r []) decls
+    DataDecl cident exp consdecls -> r DataDecl `a` f cident `a` f exp `a` foldr (a . a (r (:)) . f) (r []) consdecls
+    TypeDecl cident exp -> r TypeDecl `a` f cident `a` f exp
+    ValueDecl cident exp -> r ValueDecl `a` f cident `a` f exp
+    ConsDecl cident exp -> r ConsDecl `a` f cident `a` f exp
+    PCons cident patterns -> r PCons `a` f cident `a` foldr (a . a (r (:)) . f) (r []) patterns
+    PVar patternvariable -> r PVar `a` f patternvariable
+    PRec fieldpatterns -> r PRec `a` foldr (a . a (r (:)) . f) (r []) fieldpatterns
+    FieldPattern cident pattern -> r FieldPattern `a` f cident `a` f pattern
+    PVVar cident -> r PVVar `a` f cident
+    ELet letdefs exp -> r ELet `a` foldr (a . a (r (:)) . f) (r []) letdefs `a` f exp
+    ECase exp cases -> r ECase `a` f exp `a` foldr (a . a (r (:)) . f) (r []) cases
+    EAbs patternvariable exp -> r EAbs `a` f patternvariable `a` f exp
+    EPi patternvariable exp0 exp1 -> r EPi `a` f patternvariable `a` f exp0 `a` f exp1
+    EApp exp0 exp1 -> r EApp `a` f exp0 `a` f exp1
+    EProj exp cident -> r EProj `a` f exp `a` f cident
+    ERecType fieldtypes -> r ERecType `a` foldr (a . a (r (:)) . f) (r []) fieldtypes
+    ERec fieldvalues -> r ERec `a` foldr (a . a (r (:)) . f) (r []) fieldvalues
+    EVar cident -> r EVar `a` f cident
+    EMeta tmeta -> r EMeta `a` f tmeta
+    LetDef cident exp -> r LetDef `a` f cident `a` f exp
+    Case pattern exp0 exp1 -> r Case `a` f pattern `a` f exp0 `a` f exp1
+    FieldType cident exp -> r FieldType `a` f cident `a` f exp
+    FieldValue cident exp -> r FieldValue `a` f cident `a` f exp
+    _ -> r t
+
+instance Show (Tree c) where
+  showsPrec n t = case t of
+    Module decls -> opar n . showString "Module" . showChar ' ' . showsPrec 1 decls . cpar n
+    DataDecl cident exp consdecls -> opar n . showString "DataDecl" . showChar ' ' . showsPrec 1 cident . showChar ' ' . showsPrec 1 exp . showChar ' ' . showsPrec 1 consdecls . cpar n
+    TypeDecl cident exp -> opar n . showString "TypeDecl" . showChar ' ' . showsPrec 1 cident . showChar ' ' . showsPrec 1 exp . cpar n
+    ValueDecl cident exp -> opar n . showString "ValueDecl" . showChar ' ' . showsPrec 1 cident . showChar ' ' . showsPrec 1 exp . cpar n
+    ConsDecl cident exp -> opar n . showString "ConsDecl" . showChar ' ' . showsPrec 1 cident . showChar ' ' . showsPrec 1 exp . cpar n
+    PCons cident patterns -> opar n . showString "PCons" . showChar ' ' . showsPrec 1 cident . showChar ' ' . showsPrec 1 patterns . cpar n
+    PVar patternvariable -> opar n . showString "PVar" . showChar ' ' . showsPrec 1 patternvariable . cpar n
+    PRec fieldpatterns -> opar n . showString "PRec" . showChar ' ' . showsPrec 1 fieldpatterns . cpar n
+    PStr str -> opar n . showString "PStr" . showChar ' ' . showsPrec 1 str . cpar n
+    PInt n -> opar n . showString "PInt" . showChar ' ' . showsPrec 1 n . cpar n
+    FieldPattern cident pattern -> opar n . showString "FieldPattern" . showChar ' ' . showsPrec 1 cident . showChar ' ' . showsPrec 1 pattern . cpar n
+    PVVar cident -> opar n . showString "PVVar" . showChar ' ' . showsPrec 1 cident . cpar n
+    PVWild -> showString "PVWild"
+    ELet letdefs exp -> opar n . showString "ELet" . showChar ' ' . showsPrec 1 letdefs . showChar ' ' . showsPrec 1 exp . cpar n
+    ECase exp cases -> opar n . showString "ECase" . showChar ' ' . showsPrec 1 exp . showChar ' ' . showsPrec 1 cases . cpar n
+    EAbs patternvariable exp -> opar n . showString "EAbs" . showChar ' ' . showsPrec 1 patternvariable . showChar ' ' . showsPrec 1 exp . cpar n
+    EPi patternvariable exp0 exp1 -> opar n . showString "EPi" . showChar ' ' . showsPrec 1 patternvariable . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EApp exp0 exp1 -> opar n . showString "EApp" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EProj exp cident -> opar n . showString "EProj" . showChar ' ' . showsPrec 1 exp . showChar ' ' . showsPrec 1 cident . cpar n
+    ERecType fieldtypes -> opar n . showString "ERecType" . showChar ' ' . showsPrec 1 fieldtypes . cpar n
+    ERec fieldvalues -> opar n . showString "ERec" . showChar ' ' . showsPrec 1 fieldvalues . cpar n
+    EVar cident -> opar n . showString "EVar" . showChar ' ' . showsPrec 1 cident . cpar n
+    EType -> showString "EType"
+    EStr str -> opar n . showString "EStr" . showChar ' ' . showsPrec 1 str . cpar n
+    EInteger n -> opar n . showString "EInteger" . showChar ' ' . showsPrec 1 n . cpar n
+    EDouble d -> opar n . showString "EDouble" . showChar ' ' . showsPrec 1 d . cpar n
+    EMeta tmeta -> opar n . showString "EMeta" . showChar ' ' . showsPrec 1 tmeta . cpar n
+    LetDef cident exp -> opar n . showString "LetDef" . showChar ' ' . showsPrec 1 cident . showChar ' ' . showsPrec 1 exp . cpar n
+    Case pattern exp0 exp1 -> opar n . showString "Case" . showChar ' ' . showsPrec 1 pattern . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    FieldType cident exp -> opar n . showString "FieldType" . showChar ' ' . showsPrec 1 cident . showChar ' ' . showsPrec 1 exp . cpar n
+    FieldValue cident exp -> opar n . showString "FieldValue" . showChar ' ' . showsPrec 1 cident . showChar ' ' . showsPrec 1 exp . cpar n
+    TMeta str -> opar n . showString "TMeta" . showChar ' ' . showsPrec 1 str . cpar n
+    CIdent str -> opar n . showString "CIdent" . showChar ' ' . showsPrec 1 str . cpar n
+   where opar n = if n > 0 then showChar '(' else id
+         cpar n = if n > 0 then showChar ')' else id
+
+instance Eq (Tree c) where (==) = johnMajorEq
+
+johnMajorEq :: Tree a -> Tree b -> Bool
+johnMajorEq (Module decls) (Module decls_) = decls == decls_
+johnMajorEq (DataDecl cident exp consdecls) (DataDecl cident_ exp_ consdecls_) = cident == cident_ && exp == exp_ && consdecls == consdecls_
+johnMajorEq (TypeDecl cident exp) (TypeDecl cident_ exp_) = cident == cident_ && exp == exp_
+johnMajorEq (ValueDecl cident exp) (ValueDecl cident_ exp_) = cident == cident_ && exp == exp_
+johnMajorEq (ConsDecl cident exp) (ConsDecl cident_ exp_) = cident == cident_ && exp == exp_
+johnMajorEq (PCons cident patterns) (PCons cident_ patterns_) = cident == cident_ && patterns == patterns_
+johnMajorEq (PVar patternvariable) (PVar patternvariable_) = patternvariable == patternvariable_
+johnMajorEq (PRec fieldpatterns) (PRec fieldpatterns_) = fieldpatterns == fieldpatterns_
+johnMajorEq (PStr str) (PStr str_) = str == str_
+johnMajorEq (PInt n) (PInt n_) = n == n_
+johnMajorEq (FieldPattern cident pattern) (FieldPattern cident_ pattern_) = cident == cident_ && pattern == pattern_
+johnMajorEq (PVVar cident) (PVVar cident_) = cident == cident_
+johnMajorEq PVWild PVWild = True
+johnMajorEq (ELet letdefs exp) (ELet letdefs_ exp_) = letdefs == letdefs_ && exp == exp_
+johnMajorEq (ECase exp cases) (ECase exp_ cases_) = exp == exp_ && cases == cases_
+johnMajorEq (EAbs patternvariable exp) (EAbs patternvariable_ exp_) = patternvariable == patternvariable_ && exp == exp_
+johnMajorEq (EPi patternvariable exp0 exp1) (EPi patternvariable_ exp0_ exp1_) = patternvariable == patternvariable_ && exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EApp exp0 exp1) (EApp exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EProj exp cident) (EProj exp_ cident_) = exp == exp_ && cident == cident_
+johnMajorEq (ERecType fieldtypes) (ERecType fieldtypes_) = fieldtypes == fieldtypes_
+johnMajorEq (ERec fieldvalues) (ERec fieldvalues_) = fieldvalues == fieldvalues_
+johnMajorEq (EVar cident) (EVar cident_) = cident == cident_
+johnMajorEq EType EType = True
+johnMajorEq (EStr str) (EStr str_) = str == str_
+johnMajorEq (EInteger n) (EInteger n_) = n == n_
+johnMajorEq (EDouble d) (EDouble d_) = d == d_
+johnMajorEq (EMeta tmeta) (EMeta tmeta_) = tmeta == tmeta_
+johnMajorEq (LetDef cident exp) (LetDef cident_ exp_) = cident == cident_ && exp == exp_
+johnMajorEq (Case pattern exp0 exp1) (Case pattern_ exp0_ exp1_) = pattern == pattern_ && exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (FieldType cident exp) (FieldType cident_ exp_) = cident == cident_ && exp == exp_
+johnMajorEq (FieldValue cident exp) (FieldValue cident_ exp_) = cident == cident_ && exp == exp_
+johnMajorEq (TMeta str) (TMeta str_) = str == str_
+johnMajorEq (CIdent str) (CIdent str_) = str == str_
+johnMajorEq _ _ = False
+
+instance Ord (Tree c) where
+  compare x y = compare (index x) (index y) `mappend` compareSame x y
+index :: Tree c -> Int
+index (Module _) = 0
+index (DataDecl _ _ _) = 1
+index (TypeDecl _ _) = 2
+index (ValueDecl _ _) = 3
+index (ConsDecl _ _) = 4
+index (PCons _ _) = 5
+index (PVar _) = 6
+index (PRec _) = 7
+index (PStr _) = 8
+index (PInt _) = 9
+index (FieldPattern _ _) = 10
+index (PVVar _) = 11
+index (PVWild ) = 12
+index (ELet _ _) = 13
+index (ECase _ _) = 14
+index (EAbs _ _) = 15
+index (EPi _ _ _) = 16
+index (EApp _ _) = 17
+index (EProj _ _) = 18
+index (ERecType _) = 19
+index (ERec _) = 20
+index (EVar _) = 21
+index (EType ) = 22
+index (EStr _) = 23
+index (EInteger _) = 24
+index (EDouble _) = 25
+index (EMeta _) = 26
+index (LetDef _ _) = 27
+index (Case _ _ _) = 28
+index (FieldType _ _) = 29
+index (FieldValue _ _) = 30
+index (TMeta _) = 31
+index (CIdent _) = 32
+compareSame :: Tree c -> Tree c -> Ordering
+compareSame (Module decls) (Module decls_) = compare decls decls_
+compareSame (DataDecl cident exp consdecls) (DataDecl cident_ exp_ consdecls_) = mappend (compare cident cident_) (mappend (compare exp exp_) (compare consdecls consdecls_))
+compareSame (TypeDecl cident exp) (TypeDecl cident_ exp_) = mappend (compare cident cident_) (compare exp exp_)
+compareSame (ValueDecl cident exp) (ValueDecl cident_ exp_) = mappend (compare cident cident_) (compare exp exp_)
+compareSame (ConsDecl cident exp) (ConsDecl cident_ exp_) = mappend (compare cident cident_) (compare exp exp_)
+compareSame (PCons cident patterns) (PCons cident_ patterns_) = mappend (compare cident cident_) (compare patterns patterns_)
+compareSame (PVar patternvariable) (PVar patternvariable_) = compare patternvariable patternvariable_
+compareSame (PRec fieldpatterns) (PRec fieldpatterns_) = compare fieldpatterns fieldpatterns_
+compareSame (PStr str) (PStr str_) = compare str str_
+compareSame (PInt n) (PInt n_) = compare n n_
+compareSame (FieldPattern cident pattern) (FieldPattern cident_ pattern_) = mappend (compare cident cident_) (compare pattern pattern_)
+compareSame (PVVar cident) (PVVar cident_) = compare cident cident_
+compareSame PVWild PVWild = EQ
+compareSame (ELet letdefs exp) (ELet letdefs_ exp_) = mappend (compare letdefs letdefs_) (compare exp exp_)
+compareSame (ECase exp cases) (ECase exp_ cases_) = mappend (compare exp exp_) (compare cases cases_)
+compareSame (EAbs patternvariable exp) (EAbs patternvariable_ exp_) = mappend (compare patternvariable patternvariable_) (compare exp exp_)
+compareSame (EPi patternvariable exp0 exp1) (EPi patternvariable_ exp0_ exp1_) = mappend (compare patternvariable patternvariable_) (mappend (compare exp0 exp0_) (compare exp1 exp1_))
+compareSame (EApp exp0 exp1) (EApp exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EProj exp cident) (EProj exp_ cident_) = mappend (compare exp exp_) (compare cident cident_)
+compareSame (ERecType fieldtypes) (ERecType fieldtypes_) = compare fieldtypes fieldtypes_
+compareSame (ERec fieldvalues) (ERec fieldvalues_) = compare fieldvalues fieldvalues_
+compareSame (EVar cident) (EVar cident_) = compare cident cident_
+compareSame EType EType = EQ
+compareSame (EStr str) (EStr str_) = compare str str_
+compareSame (EInteger n) (EInteger n_) = compare n n_
+compareSame (EDouble d) (EDouble d_) = compare d d_
+compareSame (EMeta tmeta) (EMeta tmeta_) = compare tmeta tmeta_
+compareSame (LetDef cident exp) (LetDef cident_ exp_) = mappend (compare cident cident_) (compare exp exp_)
+compareSame (Case pattern exp0 exp1) (Case pattern_ exp0_ exp1_) = mappend (compare pattern pattern_) (mappend (compare exp0 exp0_) (compare exp1 exp1_))
+compareSame (FieldType cident exp) (FieldType cident_ exp_) = mappend (compare cident cident_) (compare exp exp_)
+compareSame (FieldValue cident exp) (FieldValue cident_ exp_) = mappend (compare cident cident_) (compare exp exp_)
+compareSame (TMeta str) (TMeta str_) = compare str str_
+compareSame (CIdent str) (CIdent str_) = compare str str_
+compareSame x y = error "BNFC error:" compareSame
diff --git a/src/Transfer/Core/Core.cf b/src/Transfer/Core/Core.cf
new file mode 100644
index 000000000..cd4c20569
--- /dev/null
+++ b/src/Transfer/Core/Core.cf
@@ -0,0 +1,93 @@
+-- This is a subset of the front-end language
+
+entrypoints Module, Exp ;
+
+comment "--" ;
+comment "{-" "-}" ;
+
+Module. Module ::= [Decl] ;
+separator Decl ";" ;
+
+DataDecl.  Decl ::= "data" CIdent ":" Exp "where" "{" [ConsDecl] "}" ;
+TypeDecl.  Decl ::= CIdent ":" Exp ;
+ValueDecl. Decl ::= CIdent "=" Exp ;
+
+ConsDecl. ConsDecl ::= CIdent ":" Exp ;
+separator ConsDecl ";" ;
+
+separator Pattern "";
+
+-- Constructor patterns.
+PCons.     Pattern ::= "(" CIdent [Pattern] ")" ;
+
+-- Variable patterns. Note that in the core language,
+-- constructor patterns must have parantheses.
+PVar.      Pattern ::= PatternVariable ;
+-- Record patterns.
+PRec.      Pattern ::= "rec" "{" [FieldPattern] "}";
+-- String literal patterns.
+PStr.      Pattern ::= String ;
+-- Integer literal patterns.
+PInt.      Pattern ::= Integer ;
+
+FieldPattern. FieldPattern ::= CIdent "=" Pattern ;
+separator FieldPattern ";" ;
+
+-- Variable patterns
+PVVar. PatternVariable  ::= CIdent ;
+-- Wild card patterns
+PVWild. PatternVariable ::= "_" ;
+
+-- Let expressions.
+ELet.      Exp  ::= "let" "{" [LetDef] "}" "in" Exp ;
+LetDef.    LetDef ::= CIdent "=" Exp ;
+separator LetDef ";" ;
+
+-- Case expressions.
+ECase.     Exp  ::= "case" Exp "of" "{" [Case] "}" ;
+Case.      Case ::= Pattern "|" Exp "->" Exp ;
+separator  Case ";" ;
+
+-- Lambda abstractions.
+EAbs.      Exp1 ::= "\\" PatternVariable "->" Exp ;
+-- Function types.
+EPi.       Exp1 ::= "(" PatternVariable ":" Exp ")" "->" Exp ;
+
+-- Function application.
+EApp.      Exp3 ::= Exp3 Exp4 ;
+
+-- Record field projection.
+EProj.     Exp4 ::= Exp4 "." CIdent ;
+
+-- Record types.
+ERecType.  Exp5 ::= "sig" "{" [FieldType] "}" ;
+FieldType. FieldType  ::= CIdent ":" Exp ;
+separator FieldType ";" ;
+
+-- Record expressions.
+ERec.      Exp5 ::= "rec" "{" [FieldValue] "}" ;
+FieldValue.FieldValue ::= CIdent "=" Exp ;
+separator FieldValue ";" ;
+
+
+-- Functions, constructors and local variables.
+EVar.      Exp5 ::= CIdent ;
+-- The constant Type.
+EType.     Exp5 ::= "Type" ;
+-- String literal expressions.
+EStr.      Exp5 ::= String ;
+-- Integer literal expressions.
+EInteger.  Exp5 ::= Integer ;
+-- Double literal expressions.
+EDouble.   Exp5 ::= Double ;
+-- Meta variables
+EMeta.     Exp5 ::= TMeta ;
+
+token TMeta ('?' digit+) ;
+
+coercions Exp 5 ;
+
+
+-- Identifiers in core can start with underscore to allow
+-- generating unique identifiers easily.
+token CIdent ((letter | '_') (letter | digit | '_' | '\'')*) ;
diff --git a/src/Transfer/Core/Doc.tex b/src/Transfer/Core/Doc.tex
new file mode 100644
index 000000000..4ba6f93ed
--- /dev/null
+++ b/src/Transfer/Core/Doc.tex
@@ -0,0 +1,215 @@
+\batchmode
+%This Latex file is machine-generated by the BNF-converter
+
+\documentclass[a4paper,11pt]{article}
+\author{BNF-converter}
+\title{The Language Core}
+\setlength{\parindent}{0mm}
+\setlength{\parskip}{1mm}
+\begin{document}
+
+\maketitle
+
+\newcommand{\emptyP}{\mbox{$\epsilon$}}
+\newcommand{\terminal}[1]{\mbox{{\texttt {#1}}}}
+\newcommand{\nonterminal}[1]{\mbox{$\langle \mbox{{\sl #1 }} \! \rangle$}}
+\newcommand{\arrow}{\mbox{::=}}
+\newcommand{\delimit}{\mbox{$|$}}
+\newcommand{\reserved}[1]{\mbox{{\texttt {#1}}}}
+\newcommand{\literal}[1]{\mbox{{\texttt {#1}}}}
+\newcommand{\symb}[1]{\mbox{{\texttt {#1}}}}
+
+This document was automatically generated by the {\em BNF-Converter}. It was generated together with the lexer, the parser, and the abstract syntax module, which guarantees that the document matches with the implementation of the language (provided no hand-hacking has taken place).
+
+\section*{The lexical structure of Core}
+
+\subsection*{Literals}
+String literals \nonterminal{String}\ have the form
+\terminal{"}$x$\terminal{"}, where $x$ is any sequence of any characters
+except \terminal{"}\ unless preceded by \verb6\6.
+
+
+Integer literals \nonterminal{Int}\ are nonempty sequences of digits.
+
+
+Double-precision float literals \nonterminal{Double}\ have the structure
+indicated by the regular expression $\nonterminal{digit}+ \mbox{{\it `.'}} \nonterminal{digit}+ (\mbox{{\it `e'}} \mbox{{\it `-'}}? \nonterminal{digit}+)?$ i.e.\
+two sequences of digits separated by a decimal point, optionally
+followed by an unsigned or negative exponent.
+
+
+
+
+
+TMeta literals are recognized by the regular expression
+\(\mbox{`?'} {\nonterminal{digit}}+\)
+
+CIdent literals are recognized by the regular expression
+\(({\nonterminal{letter}} \mid \mbox{`\_'}) ({\nonterminal{letter}} \mid {\nonterminal{digit}} \mid \mbox{`\_'} \mid \mbox{`''})*\)
+
+
+\subsection*{Reserved words and symbols}
+The set of reserved words is the set of terminals appearing in the grammar. Those reserved words that consist of non-letter characters are called symbols, and they are treated in a different way from those that are similar to identifiers. The lexer follows rules familiar from languages like Haskell, C, and Java, including longest match and spacing conventions.
+
+The reserved words used in Core are the following: \\
+
+\begin{tabular}{lll}
+{\reserved{Type}} &{\reserved{case}} &{\reserved{data}} \\
+{\reserved{in}} &{\reserved{let}} &{\reserved{of}} \\
+{\reserved{rec}} &{\reserved{sig}} &{\reserved{where}} \\
+\end{tabular}\\
+
+The symbols used in Core are the following: \\
+
+\begin{tabular}{lll}
+{\symb{;}} &{\symb{:}} &{\symb{\{}} \\
+{\symb{\}}} &{\symb{{$=$}}} &{\symb{(}} \\
+{\symb{)}} &{\symb{\_}} &{\symb{{$|$}}} \\
+{\symb{{$-$}{$>$}}} &{\symb{$\backslash$}} &{\symb{.}} \\
+\end{tabular}\\
+
+\subsection*{Comments}
+Single-line comments begin with {\symb{{$-$}{$-$}}}. \\Multiple-line comments are  enclosed with {\symb{\{{$-$}}} and {\symb{{$-$}\}}}.
+
+\section*{The syntactic structure of Core}
+Non-terminals are enclosed between $\langle$ and $\rangle$. 
+The symbols  {\arrow}  (production),  {\delimit}  (union) 
+and {\emptyP} (empty rule) belong to the BNF notation. 
+All other symbols are terminals.\\
+
+\begin{tabular}{lll}
+{\nonterminal{Module}} & {\arrow}  &{\nonterminal{ListDecl}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListDecl}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{Decl}}  \\
+ & {\delimit}  &{\nonterminal{Decl}} {\terminal{;}} {\nonterminal{ListDecl}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Decl}} & {\arrow}  &{\terminal{data}} {\nonterminal{CIdent}} {\terminal{:}} {\nonterminal{Exp}} {\terminal{where}} {\terminal{\{}} {\nonterminal{ListConsDecl}} {\terminal{\}}}  \\
+ & {\delimit}  &{\nonterminal{CIdent}} {\terminal{:}} {\nonterminal{Exp}}  \\
+ & {\delimit}  &{\nonterminal{CIdent}} {\terminal{{$=$}}} {\nonterminal{Exp}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ConsDecl}} & {\arrow}  &{\nonterminal{CIdent}} {\terminal{:}} {\nonterminal{Exp}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListConsDecl}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{ConsDecl}}  \\
+ & {\delimit}  &{\nonterminal{ConsDecl}} {\terminal{;}} {\nonterminal{ListConsDecl}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListPattern}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{Pattern}} {\nonterminal{ListPattern}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Pattern}} & {\arrow}  &{\terminal{(}} {\nonterminal{CIdent}} {\nonterminal{ListPattern}} {\terminal{)}}  \\
+ & {\delimit}  &{\nonterminal{PatternVariable}}  \\
+ & {\delimit}  &{\terminal{rec}} {\terminal{\{}} {\nonterminal{ListFieldPattern}} {\terminal{\}}}  \\
+ & {\delimit}  &{\nonterminal{String}}  \\
+ & {\delimit}  &{\nonterminal{Integer}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{FieldPattern}} & {\arrow}  &{\nonterminal{CIdent}} {\terminal{{$=$}}} {\nonterminal{Pattern}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListFieldPattern}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{FieldPattern}}  \\
+ & {\delimit}  &{\nonterminal{FieldPattern}} {\terminal{;}} {\nonterminal{ListFieldPattern}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{PatternVariable}} & {\arrow}  &{\nonterminal{CIdent}}  \\
+ & {\delimit}  &{\terminal{\_}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp}} & {\arrow}  &{\terminal{let}} {\terminal{\{}} {\nonterminal{ListLetDef}} {\terminal{\}}} {\terminal{in}} {\nonterminal{Exp}}  \\
+ & {\delimit}  &{\terminal{case}} {\nonterminal{Exp}} {\terminal{of}} {\terminal{\{}} {\nonterminal{ListCase}} {\terminal{\}}}  \\
+ & {\delimit}  &{\nonterminal{Exp1}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{LetDef}} & {\arrow}  &{\nonterminal{CIdent}} {\terminal{{$=$}}} {\nonterminal{Exp}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListLetDef}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{LetDef}}  \\
+ & {\delimit}  &{\nonterminal{LetDef}} {\terminal{;}} {\nonterminal{ListLetDef}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Case}} & {\arrow}  &{\nonterminal{Pattern}} {\terminal{{$|$}}} {\nonterminal{Exp}} {\terminal{{$-$}{$>$}}} {\nonterminal{Exp}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListCase}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{Case}}  \\
+ & {\delimit}  &{\nonterminal{Case}} {\terminal{;}} {\nonterminal{ListCase}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp1}} & {\arrow}  &{\terminal{$\backslash$}} {\nonterminal{PatternVariable}} {\terminal{{$-$}{$>$}}} {\nonterminal{Exp}}  \\
+ & {\delimit}  &{\terminal{(}} {\nonterminal{PatternVariable}} {\terminal{:}} {\nonterminal{Exp}} {\terminal{)}} {\terminal{{$-$}{$>$}}} {\nonterminal{Exp}}  \\
+ & {\delimit}  &{\nonterminal{Exp2}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp3}} & {\arrow}  &{\nonterminal{Exp3}} {\nonterminal{Exp4}}  \\
+ & {\delimit}  &{\nonterminal{Exp4}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp4}} & {\arrow}  &{\nonterminal{Exp4}} {\terminal{.}} {\nonterminal{CIdent}}  \\
+ & {\delimit}  &{\nonterminal{Exp5}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp5}} & {\arrow}  &{\terminal{sig}} {\terminal{\{}} {\nonterminal{ListFieldType}} {\terminal{\}}}  \\
+ & {\delimit}  &{\terminal{rec}} {\terminal{\{}} {\nonterminal{ListFieldValue}} {\terminal{\}}}  \\
+ & {\delimit}  &{\nonterminal{CIdent}}  \\
+ & {\delimit}  &{\terminal{Type}}  \\
+ & {\delimit}  &{\nonterminal{String}}  \\
+ & {\delimit}  &{\nonterminal{Integer}}  \\
+ & {\delimit}  &{\nonterminal{Double}}  \\
+ & {\delimit}  &{\nonterminal{TMeta}}  \\
+ & {\delimit}  &{\terminal{(}} {\nonterminal{Exp}} {\terminal{)}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{FieldType}} & {\arrow}  &{\nonterminal{CIdent}} {\terminal{:}} {\nonterminal{Exp}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListFieldType}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{FieldType}}  \\
+ & {\delimit}  &{\nonterminal{FieldType}} {\terminal{;}} {\nonterminal{ListFieldType}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{FieldValue}} & {\arrow}  &{\nonterminal{CIdent}} {\terminal{{$=$}}} {\nonterminal{Exp}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListFieldValue}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{FieldValue}}  \\
+ & {\delimit}  &{\nonterminal{FieldValue}} {\terminal{;}} {\nonterminal{ListFieldValue}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp2}} & {\arrow}  &{\nonterminal{Exp3}}  \\
+\end{tabular}\\
+
+
+
+\end{document}
+
diff --git a/src/Transfer/Core/Lex.hs b/src/Transfer/Core/Lex.hs
new file mode 100644
index 000000000..be1198508
--- /dev/null
+++ b/src/Transfer/Core/Lex.hs
@@ -0,0 +1,343 @@
+{-# OPTIONS -fglasgow-exts -cpp #-}
+{-# LINE 3 "Transfer/Core/Lex.x" #-}
+{-# OPTIONS -fno-warn-incomplete-patterns #-}
+module Transfer.Core.Lex where
+
+
+
+#if __GLASGOW_HASKELL__ >= 603
+#include "ghcconfig.h"
+#else
+#include "config.h"
+#endif
+#if __GLASGOW_HASKELL__ >= 503
+import Data.Array
+import Data.Char (ord)
+import Data.Array.Base (unsafeAt)
+#else
+import Array
+import Char (ord)
+#endif
+#if __GLASGOW_HASKELL__ >= 503
+import GHC.Exts
+#else
+import GlaExts
+#endif
+alex_base :: AlexAddr
+alex_base = AlexA# "\x01\x00\x00\x00\x15\x00\x00\x00\x39\x00\x00\x00\x3a\x00\x00\x00\x18\x00\x00\x00\x19\x00\x00\x00\x1a\x00\x00\x00\x00\x00\x00\x00\x44\x00\x00\x00\x45\x00\x00\x00\x1b\x00\x00\x00\x1c\x00\x00\x00\x1d\x00\x00\x00\x42\x00\x00\x00\x00\x00\x00\x00\x9c\x00\x00\x00\x33\x00\x00\x00\xe7\x00\x00\x00\x6c\x01\x00\x00\x3c\x02\x00\x00\x00\x00\x00\x00\x17\x01\x00\x00\xd5\x00\x00\x00\xf4\x00\x00\x00\xb7\x01\x00\x00\x1a\x01\x00\x00\xc1\x01\x00\x00\xcb\x01\x00\x00\xd8\x01\x00\x00"#
+
+alex_table :: AlexAddr
+alex_table = AlexA# 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+
+alex_check :: AlexAddr
+alex_check = AlexA# 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+
+alex_deflt :: AlexAddr
+alex_deflt = AlexA# "\x13\x00\xff\xff\x02\x00\x02\x00\xff\xff\xff\xff\x0a\x00\xff\xff\x0a\x00\x0a\x00\x0a\x00\x0a\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x15\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff"#
+
+alex_accept = listArray (0::Int,28) [[],[],[(AlexAccSkip)],[(AlexAccSkip)],[],[],[(AlexAccSkip)],[(AlexAccSkip)],[],[],[],[],[(AlexAcc (alex_action_3))],[(AlexAccSkip)],[(AlexAcc (alex_action_3))],[(AlexAcc (alex_action_3))],[(AlexAcc (alex_action_4))],[],[(AlexAcc (alex_action_5))],[(AlexAcc (alex_action_5))],[(AlexAcc (alex_action_7))],[],[],[(AlexAcc (alex_action_8))],[(AlexAcc (alex_action_9))],[(AlexAcc (alex_action_9))],[],[],[]]
+{-# LINE 36 "Transfer/Core/Lex.x" #-}
+
+tok f p s = f p s
+
+share :: String -> String
+share = id
+
+data Tok =
+   TS !String     -- reserved words and symbols
+ | TL !String     -- string literals
+ | TI !String     -- integer literals
+ | TV !String     -- identifiers
+ | TD !String     -- double precision float literals
+ | TC !String     -- character literals
+ | T_TMeta !String
+ | T_CIdent !String
+
+ deriving (Eq,Show,Ord)
+
+data Token = 
+   PT  Posn Tok
+ | Err Posn
+  deriving (Eq,Show,Ord)
+
+tokenPos (PT (Pn _ l _) _ :_) = "line " ++ show l
+tokenPos (Err (Pn _ l _) :_) = "line " ++ show l
+tokenPos _ = "end of file"
+
+posLineCol (Pn _ l c) = (l,c)
+mkPosToken t@(PT p _) = (posLineCol p, prToken t)
+
+prToken t = case t of
+  PT _ (TS s) -> s
+  PT _ (TI s) -> s
+  PT _ (TV s) -> s
+  PT _ (TD s) -> s
+  PT _ (TC s) -> s
+  PT _ (T_TMeta s) -> s
+  PT _ (T_CIdent s) -> s
+
+  _ -> show t
+
+data BTree = N | B String Tok BTree BTree deriving (Show)
+
+eitherResIdent :: (String -> Tok) -> String -> Tok
+eitherResIdent tv s = treeFind resWords
+  where
+  treeFind N = tv s
+  treeFind (B a t left right) | s < a  = treeFind left
+                              | s > a  = treeFind right
+                              | s == a = t
+
+resWords = b "let" (b "data" (b "case" (b "Type" N N) N) (b "in" N N)) (b "sig" (b "rec" (b "of" N N) N) (b "where" N N))
+   where b s = B s (TS s)
+
+unescapeInitTail :: String -> String
+unescapeInitTail = unesc . tail where
+  unesc s = case s of
+    '\\':c:cs | elem c ['\"', '\\', '\''] -> c : unesc cs
+    '\\':'n':cs  -> '\n' : unesc cs
+    '\\':'t':cs  -> '\t' : unesc cs
+    '"':[]    -> []
+    c:cs      -> c : unesc cs
+    _         -> []
+
+-------------------------------------------------------------------
+-- Alex wrapper code.
+-- A modified "posn" wrapper.
+-------------------------------------------------------------------
+
+data Posn = Pn !Int !Int !Int
+      deriving (Eq, Show,Ord)
+
+alexStartPos :: Posn
+alexStartPos = Pn 0 1 1
+
+alexMove :: Posn -> Char -> Posn
+alexMove (Pn a l c) '\t' = Pn (a+1)  l     (((c+7) `div` 8)*8+1)
+alexMove (Pn a l c) '\n' = Pn (a+1) (l+1)   1
+alexMove (Pn a l c) _    = Pn (a+1)  l     (c+1)
+
+type AlexInput = (Posn, -- current position,
+		  Char,	-- previous char
+		  String)	-- current input string
+
+tokens :: String -> [Token]
+tokens str = go (alexStartPos, '\n', str)
+    where
+      go :: (Posn, Char, String) -> [Token]
+      go inp@(pos, _, str) =
+    	  case alexScan inp 0 of
+    	    AlexEOF                -> []
+    	    AlexError (pos, _, _)  -> fail $ show pos ++ ": lexical error"
+    	    AlexSkip  inp' len     -> go inp'
+    	    AlexToken inp' len act -> act pos (take len str) : (go inp')
+
+alexGetChar :: AlexInput -> Maybe (Char,AlexInput)
+alexGetChar (p, c, [])    = Nothing
+alexGetChar (p, _, (c:s)) =
+    let p' = alexMove p c
+     in p' `seq` Just (c, (p', c, s))
+
+alexInputPrevChar :: AlexInput -> Char
+alexInputPrevChar (p, c, s) = c
+
+alex_action_3 = tok (\p s -> PT p (TS $ share s)) 
+alex_action_4 = tok (\p s -> PT p (eitherResIdent (T_TMeta . share) s)) 
+alex_action_5 = tok (\p s -> PT p (eitherResIdent (T_CIdent . share) s)) 
+alex_action_6 = tok (\p s -> PT p (eitherResIdent (TV . share) s)) 
+alex_action_7 = tok (\p s -> PT p (TL $ share $ unescapeInitTail s)) 
+alex_action_8 = tok (\p s -> PT p (TI $ share s))    
+alex_action_9 = tok (\p s -> PT p (TD $ share s)) 
+{-# LINE 1 "GenericTemplate.hs" #-}
+{-# LINE 1 "<built-in>" #-}
+{-# LINE 1 "<command line>" #-}
+{-# LINE 1 "GenericTemplate.hs" #-}
+-- -----------------------------------------------------------------------------
+-- ALEX TEMPLATE
+--
+-- This code is in the PUBLIC DOMAIN; you may copy it freely and use
+-- it for any purpose whatsoever.
+
+-- -----------------------------------------------------------------------------
+-- INTERNALS and main scanner engine
+
+{-# LINE 35 "GenericTemplate.hs" #-}
+
+{-# LINE 45 "GenericTemplate.hs" #-}
+
+
+data AlexAddr = AlexA# Addr#
+
+#if __GLASGOW_HASKELL__ < 503
+uncheckedShiftL# = shiftL#
+#endif
+
+{-# INLINE alexIndexInt16OffAddr #-}
+alexIndexInt16OffAddr (AlexA# arr) off =
+#ifdef WORDS_BIGENDIAN
+  narrow16Int# i
+  where
+	i    = word2Int# ((high `uncheckedShiftL#` 8#) `or#` low)
+	high = int2Word# (ord# (indexCharOffAddr# arr (off' +# 1#)))
+	low  = int2Word# (ord# (indexCharOffAddr# arr off'))
+	off' = off *# 2#
+#else
+  indexInt16OffAddr# arr off
+#endif
+
+
+
+
+
+{-# INLINE alexIndexInt32OffAddr #-}
+alexIndexInt32OffAddr (AlexA# arr) off = 
+#ifdef WORDS_BIGENDIAN
+  narrow32Int# i
+  where
+   i    = word2Int# ((b3 `uncheckedShiftL#` 24#) `or#`
+		     (b2 `uncheckedShiftL#` 16#) `or#`
+		     (b1 `uncheckedShiftL#` 8#) `or#` b0)
+   b3   = int2Word# (ord# (indexCharOffAddr# arr (off' +# 3#)))
+   b2   = int2Word# (ord# (indexCharOffAddr# arr (off' +# 2#)))
+   b1   = int2Word# (ord# (indexCharOffAddr# arr (off' +# 1#)))
+   b0   = int2Word# (ord# (indexCharOffAddr# arr off'))
+   off' = off *# 4#
+#else
+  indexInt32OffAddr# arr off
+#endif
+
+
+
+
+
+#if __GLASGOW_HASKELL__ < 503
+quickIndex arr i = arr ! i
+#else
+-- GHC >= 503, unsafeAt is available from Data.Array.Base.
+quickIndex = unsafeAt
+#endif
+
+
+
+
+-- -----------------------------------------------------------------------------
+-- Main lexing routines
+
+data AlexReturn a
+  = AlexEOF
+  | AlexError  !AlexInput
+  | AlexSkip   !AlexInput !Int
+  | AlexToken  !AlexInput !Int a
+
+-- alexScan :: AlexInput -> StartCode -> Maybe (AlexInput,Int,act)
+alexScan input (I# (sc))
+  = alexScanUser undefined input (I# (sc))
+
+alexScanUser user input (I# (sc))
+  = case alex_scan_tkn user input 0# input sc AlexNone of
+	(AlexNone, input') ->
+		case alexGetChar input of
+			Nothing -> 
+
+
+
+				   AlexEOF
+			Just _ ->
+
+
+
+				   AlexError input'
+
+	(AlexLastSkip input len, _) ->
+
+
+
+		AlexSkip input len
+
+	(AlexLastAcc k input len, _) ->
+
+
+
+		AlexToken input len k
+
+
+-- Push the input through the DFA, remembering the most recent accepting
+-- state it encountered.
+
+alex_scan_tkn user orig_input len input s last_acc =
+  input `seq` -- strict in the input
+  case s of 
+    -1# -> (last_acc, input)
+    _ -> alex_scan_tkn' user orig_input len input s last_acc
+
+alex_scan_tkn' user orig_input len input s last_acc =
+  let 
+	new_acc = check_accs (alex_accept `quickIndex` (I# (s)))
+  in
+  new_acc `seq`
+  case alexGetChar input of
+     Nothing -> (new_acc, input)
+     Just (c, new_input) -> 
+
+
+
+	let
+		base   = alexIndexInt32OffAddr alex_base s
+		(I# (ord_c)) = ord c
+		offset = (base +# ord_c)
+		check  = alexIndexInt16OffAddr alex_check offset
+		
+		new_s = if (offset >=# 0#) && (check ==# ord_c)
+			  then alexIndexInt16OffAddr alex_table offset
+			  else alexIndexInt16OffAddr alex_deflt s
+	in
+	alex_scan_tkn user orig_input (len +# 1#) new_input new_s new_acc
+
+  where
+	check_accs [] = last_acc
+	check_accs (AlexAcc a : _) = AlexLastAcc a input (I# (len))
+	check_accs (AlexAccSkip : _)  = AlexLastSkip  input (I# (len))
+	check_accs (AlexAccPred a pred : rest)
+	   | pred user orig_input (I# (len)) input
+	   = AlexLastAcc a input (I# (len))
+	check_accs (AlexAccSkipPred pred : rest)
+	   | pred user orig_input (I# (len)) input
+	   = AlexLastSkip input (I# (len))
+	check_accs (_ : rest) = check_accs rest
+
+data AlexLastAcc a
+  = AlexNone
+  | AlexLastAcc a !AlexInput !Int
+  | AlexLastSkip  !AlexInput !Int
+
+data AlexAcc a user
+  = AlexAcc a
+  | AlexAccSkip
+  | AlexAccPred a (AlexAccPred user)
+  | AlexAccSkipPred (AlexAccPred user)
+
+type AlexAccPred user = user -> AlexInput -> Int -> AlexInput -> Bool
+
+-- -----------------------------------------------------------------------------
+-- Predicates on a rule
+
+alexAndPred p1 p2 user in1 len in2
+  = p1 user in1 len in2 && p2 user in1 len in2
+
+--alexPrevCharIsPred :: Char -> AlexAccPred _ 
+alexPrevCharIs c _ input _ _ = c == alexInputPrevChar input
+
+--alexPrevCharIsOneOfPred :: Array Char Bool -> AlexAccPred _ 
+alexPrevCharIsOneOf arr _ input _ _ = arr ! alexInputPrevChar input
+
+--alexRightContext :: Int -> AlexAccPred _
+alexRightContext (I# (sc)) user _ _ input = 
+     case alex_scan_tkn user input 0# input sc AlexNone of
+	  (AlexNone, _) -> False
+	  _ -> True
+	-- TODO: there's no need to find the longest
+	-- match when checking the right context, just
+	-- the first match will do.
+
+-- used by wrappers
+iUnbox (I# (i)) = i
diff --git a/src/Transfer/Core/Lex.x b/src/Transfer/Core/Lex.x
new file mode 100644
index 000000000..480f366ae
--- /dev/null
+++ b/src/Transfer/Core/Lex.x
@@ -0,0 +1,140 @@
+-- -*- haskell -*-
+-- This Alex file was machine-generated by the BNF converter
+{
+{-# OPTIONS -fno-warn-incomplete-patterns #-}
+module Transfer.Core.Lex where
+
+
+}
+
+
+$l = [a-zA-Z\192 - \255] # [\215 \247]    -- isolatin1 letter FIXME
+$c = [A-Z\192-\221] # [\215]    -- capital isolatin1 letter FIXME
+$s = [a-z\222-\255] # [\247]    -- small isolatin1 letter FIXME
+$d = [0-9]                -- digit
+$i = [$l $d _ ']          -- identifier character
+$u = [\0-\255]          -- universal: any character
+
+@rsyms =    -- symbols and non-identifier-like reserved words
+   \; | \: | \{ | \} | \= | \( | \) | \_ | \| | \- \> | \\ | \.
+
+:-
+"--" [.]* ; -- Toss single line comments
+"{-" ([$u # \-] | \- [$u # \}])* ("-")+ "}" ; 
+
+$white+ ;
+@rsyms { tok (\p s -> PT p (TS $ share s)) }
+\? $d + { tok (\p s -> PT p (eitherResIdent (T_TMeta . share) s)) }
+($l | \_)($l | $d | \_ | \')* { tok (\p s -> PT p (eitherResIdent (T_CIdent . share) s)) }
+
+$l $i*   { tok (\p s -> PT p (eitherResIdent (TV . share) s)) }
+\" ([$u # [\" \\ \n]] | (\\ (\" | \\ | \' | n | t)))* \"{ tok (\p s -> PT p (TL $ share $ unescapeInitTail s)) }
+
+$d+      { tok (\p s -> PT p (TI $ share s))    }
+$d+ \. $d+ (e (\-)? $d+)? { tok (\p s -> PT p (TD $ share s)) }
+
+{
+
+tok f p s = f p s
+
+share :: String -> String
+share = id
+
+data Tok =
+   TS !String     -- reserved words and symbols
+ | TL !String     -- string literals
+ | TI !String     -- integer literals
+ | TV !String     -- identifiers
+ | TD !String     -- double precision float literals
+ | TC !String     -- character literals
+ | T_TMeta !String
+ | T_CIdent !String
+
+ deriving (Eq,Show,Ord)
+
+data Token = 
+   PT  Posn Tok
+ | Err Posn
+  deriving (Eq,Show,Ord)
+
+tokenPos (PT (Pn _ l _) _ :_) = "line " ++ show l
+tokenPos (Err (Pn _ l _) :_) = "line " ++ show l
+tokenPos _ = "end of file"
+
+posLineCol (Pn _ l c) = (l,c)
+mkPosToken t@(PT p _) = (posLineCol p, prToken t)
+
+prToken t = case t of
+  PT _ (TS s) -> s
+  PT _ (TI s) -> s
+  PT _ (TV s) -> s
+  PT _ (TD s) -> s
+  PT _ (TC s) -> s
+  PT _ (T_TMeta s) -> s
+  PT _ (T_CIdent s) -> s
+
+  _ -> show t
+
+data BTree = N | B String Tok BTree BTree deriving (Show)
+
+eitherResIdent :: (String -> Tok) -> String -> Tok
+eitherResIdent tv s = treeFind resWords
+  where
+  treeFind N = tv s
+  treeFind (B a t left right) | s < a  = treeFind left
+                              | s > a  = treeFind right
+                              | s == a = t
+
+resWords = b "let" (b "data" (b "case" (b "Type" N N) N) (b "in" N N)) (b "sig" (b "rec" (b "of" N N) N) (b "where" N N))
+   where b s = B s (TS s)
+
+unescapeInitTail :: String -> String
+unescapeInitTail = unesc . tail where
+  unesc s = case s of
+    '\\':c:cs | elem c ['\"', '\\', '\''] -> c : unesc cs
+    '\\':'n':cs  -> '\n' : unesc cs
+    '\\':'t':cs  -> '\t' : unesc cs
+    '"':[]    -> []
+    c:cs      -> c : unesc cs
+    _         -> []
+
+-------------------------------------------------------------------
+-- Alex wrapper code.
+-- A modified "posn" wrapper.
+-------------------------------------------------------------------
+
+data Posn = Pn !Int !Int !Int
+      deriving (Eq, Show,Ord)
+
+alexStartPos :: Posn
+alexStartPos = Pn 0 1 1
+
+alexMove :: Posn -> Char -> Posn
+alexMove (Pn a l c) '\t' = Pn (a+1)  l     (((c+7) `div` 8)*8+1)
+alexMove (Pn a l c) '\n' = Pn (a+1) (l+1)   1
+alexMove (Pn a l c) _    = Pn (a+1)  l     (c+1)
+
+type AlexInput = (Posn, -- current position,
+		  Char,	-- previous char
+		  String)	-- current input string
+
+tokens :: String -> [Token]
+tokens str = go (alexStartPos, '\n', str)
+    where
+      go :: (Posn, Char, String) -> [Token]
+      go inp@(pos, _, str) =
+    	  case alexScan inp 0 of
+    	    AlexEOF                -> []
+    	    AlexError (pos, _, _)  -> fail $ show pos ++ ": lexical error"
+    	    AlexSkip  inp' len     -> go inp'
+    	    AlexToken inp' len act -> act pos (take len str) : (go inp')
+
+alexGetChar :: AlexInput -> Maybe (Char,AlexInput)
+alexGetChar (p, c, [])    = Nothing
+alexGetChar (p, _, (c:s)) =
+    let p' = alexMove p c
+     in p' `seq` Just (c, (p', c, s))
+
+alexInputPrevChar :: AlexInput -> Char
+alexInputPrevChar (p, c, s) = c
+}
diff --git a/src/Transfer/Core/Par.hs b/src/Transfer/Core/Par.hs
new file mode 100644
index 000000000..fec63662a
--- /dev/null
+++ b/src/Transfer/Core/Par.hs
@@ -0,0 +1,1149 @@
+{-# OPTIONS -fglasgow-exts -cpp #-}
+{-# OPTIONS -fno-warn-incomplete-patterns -fno-warn-overlapping-patterns #-}
+module Transfer.Core.Par where
+import Transfer.Core.Abs
+import Transfer.Core.Lex
+import Transfer.ErrM
+import Array
+#if __GLASGOW_HASKELL__ >= 503
+import GHC.Exts
+#else
+import GlaExts
+#endif
+
+-- parser produced by Happy Version 1.15
+
+newtype HappyAbsSyn  = HappyAbsSyn (() -> ())
+happyIn5 :: (String) -> (HappyAbsSyn )
+happyIn5 x = unsafeCoerce# x
+{-# INLINE happyIn5 #-}
+happyOut5 :: (HappyAbsSyn ) -> (String)
+happyOut5 x = unsafeCoerce# x
+{-# INLINE happyOut5 #-}
+happyIn6 :: (Integer) -> (HappyAbsSyn )
+happyIn6 x = unsafeCoerce# x
+{-# INLINE happyIn6 #-}
+happyOut6 :: (HappyAbsSyn ) -> (Integer)
+happyOut6 x = unsafeCoerce# x
+{-# INLINE happyOut6 #-}
+happyIn7 :: (Double) -> (HappyAbsSyn )
+happyIn7 x = unsafeCoerce# x
+{-# INLINE happyIn7 #-}
+happyOut7 :: (HappyAbsSyn ) -> (Double)
+happyOut7 x = unsafeCoerce# x
+{-# INLINE happyOut7 #-}
+happyIn8 :: (TMeta) -> (HappyAbsSyn )
+happyIn8 x = unsafeCoerce# x
+{-# INLINE happyIn8 #-}
+happyOut8 :: (HappyAbsSyn ) -> (TMeta)
+happyOut8 x = unsafeCoerce# x
+{-# INLINE happyOut8 #-}
+happyIn9 :: (CIdent) -> (HappyAbsSyn )
+happyIn9 x = unsafeCoerce# x
+{-# INLINE happyIn9 #-}
+happyOut9 :: (HappyAbsSyn ) -> (CIdent)
+happyOut9 x = unsafeCoerce# x
+{-# INLINE happyOut9 #-}
+happyIn10 :: (Module) -> (HappyAbsSyn )
+happyIn10 x = unsafeCoerce# x
+{-# INLINE happyIn10 #-}
+happyOut10 :: (HappyAbsSyn ) -> (Module)
+happyOut10 x = unsafeCoerce# x
+{-# INLINE happyOut10 #-}
+happyIn11 :: ([Decl]) -> (HappyAbsSyn )
+happyIn11 x = unsafeCoerce# x
+{-# INLINE happyIn11 #-}
+happyOut11 :: (HappyAbsSyn ) -> ([Decl])
+happyOut11 x = unsafeCoerce# x
+{-# INLINE happyOut11 #-}
+happyIn12 :: (Decl) -> (HappyAbsSyn )
+happyIn12 x = unsafeCoerce# x
+{-# INLINE happyIn12 #-}
+happyOut12 :: (HappyAbsSyn ) -> (Decl)
+happyOut12 x = unsafeCoerce# x
+{-# INLINE happyOut12 #-}
+happyIn13 :: (ConsDecl) -> (HappyAbsSyn )
+happyIn13 x = unsafeCoerce# x
+{-# INLINE happyIn13 #-}
+happyOut13 :: (HappyAbsSyn ) -> (ConsDecl)
+happyOut13 x = unsafeCoerce# x
+{-# INLINE happyOut13 #-}
+happyIn14 :: ([ConsDecl]) -> (HappyAbsSyn )
+happyIn14 x = unsafeCoerce# x
+{-# INLINE happyIn14 #-}
+happyOut14 :: (HappyAbsSyn ) -> ([ConsDecl])
+happyOut14 x = unsafeCoerce# x
+{-# INLINE happyOut14 #-}
+happyIn15 :: ([Pattern]) -> (HappyAbsSyn )
+happyIn15 x = unsafeCoerce# x
+{-# INLINE happyIn15 #-}
+happyOut15 :: (HappyAbsSyn ) -> ([Pattern])
+happyOut15 x = unsafeCoerce# x
+{-# INLINE happyOut15 #-}
+happyIn16 :: (Pattern) -> (HappyAbsSyn )
+happyIn16 x = unsafeCoerce# x
+{-# INLINE happyIn16 #-}
+happyOut16 :: (HappyAbsSyn ) -> (Pattern)
+happyOut16 x = unsafeCoerce# x
+{-# INLINE happyOut16 #-}
+happyIn17 :: (FieldPattern) -> (HappyAbsSyn )
+happyIn17 x = unsafeCoerce# x
+{-# INLINE happyIn17 #-}
+happyOut17 :: (HappyAbsSyn ) -> (FieldPattern)
+happyOut17 x = unsafeCoerce# x
+{-# INLINE happyOut17 #-}
+happyIn18 :: ([FieldPattern]) -> (HappyAbsSyn )
+happyIn18 x = unsafeCoerce# x
+{-# INLINE happyIn18 #-}
+happyOut18 :: (HappyAbsSyn ) -> ([FieldPattern])
+happyOut18 x = unsafeCoerce# x
+{-# INLINE happyOut18 #-}
+happyIn19 :: (PatternVariable) -> (HappyAbsSyn )
+happyIn19 x = unsafeCoerce# x
+{-# INLINE happyIn19 #-}
+happyOut19 :: (HappyAbsSyn ) -> (PatternVariable)
+happyOut19 x = unsafeCoerce# x
+{-# INLINE happyOut19 #-}
+happyIn20 :: (Exp) -> (HappyAbsSyn )
+happyIn20 x = unsafeCoerce# x
+{-# INLINE happyIn20 #-}
+happyOut20 :: (HappyAbsSyn ) -> (Exp)
+happyOut20 x = unsafeCoerce# x
+{-# INLINE happyOut20 #-}
+happyIn21 :: (LetDef) -> (HappyAbsSyn )
+happyIn21 x = unsafeCoerce# x
+{-# INLINE happyIn21 #-}
+happyOut21 :: (HappyAbsSyn ) -> (LetDef)
+happyOut21 x = unsafeCoerce# x
+{-# INLINE happyOut21 #-}
+happyIn22 :: ([LetDef]) -> (HappyAbsSyn )
+happyIn22 x = unsafeCoerce# x
+{-# INLINE happyIn22 #-}
+happyOut22 :: (HappyAbsSyn ) -> ([LetDef])
+happyOut22 x = unsafeCoerce# x
+{-# INLINE happyOut22 #-}
+happyIn23 :: (Case) -> (HappyAbsSyn )
+happyIn23 x = unsafeCoerce# x
+{-# INLINE happyIn23 #-}
+happyOut23 :: (HappyAbsSyn ) -> (Case)
+happyOut23 x = unsafeCoerce# x
+{-# INLINE happyOut23 #-}
+happyIn24 :: ([Case]) -> (HappyAbsSyn )
+happyIn24 x = unsafeCoerce# x
+{-# INLINE happyIn24 #-}
+happyOut24 :: (HappyAbsSyn ) -> ([Case])
+happyOut24 x = unsafeCoerce# x
+{-# INLINE happyOut24 #-}
+happyIn25 :: (Exp) -> (HappyAbsSyn )
+happyIn25 x = unsafeCoerce# x
+{-# INLINE happyIn25 #-}
+happyOut25 :: (HappyAbsSyn ) -> (Exp)
+happyOut25 x = unsafeCoerce# x
+{-# INLINE happyOut25 #-}
+happyIn26 :: (Exp) -> (HappyAbsSyn )
+happyIn26 x = unsafeCoerce# x
+{-# INLINE happyIn26 #-}
+happyOut26 :: (HappyAbsSyn ) -> (Exp)
+happyOut26 x = unsafeCoerce# x
+{-# INLINE happyOut26 #-}
+happyIn27 :: (Exp) -> (HappyAbsSyn )
+happyIn27 x = unsafeCoerce# x
+{-# INLINE happyIn27 #-}
+happyOut27 :: (HappyAbsSyn ) -> (Exp)
+happyOut27 x = unsafeCoerce# x
+{-# INLINE happyOut27 #-}
+happyIn28 :: (Exp) -> (HappyAbsSyn )
+happyIn28 x = unsafeCoerce# x
+{-# INLINE happyIn28 #-}
+happyOut28 :: (HappyAbsSyn ) -> (Exp)
+happyOut28 x = unsafeCoerce# x
+{-# INLINE happyOut28 #-}
+happyIn29 :: (FieldType) -> (HappyAbsSyn )
+happyIn29 x = unsafeCoerce# x
+{-# INLINE happyIn29 #-}
+happyOut29 :: (HappyAbsSyn ) -> (FieldType)
+happyOut29 x = unsafeCoerce# x
+{-# INLINE happyOut29 #-}
+happyIn30 :: ([FieldType]) -> (HappyAbsSyn )
+happyIn30 x = unsafeCoerce# x
+{-# INLINE happyIn30 #-}
+happyOut30 :: (HappyAbsSyn ) -> ([FieldType])
+happyOut30 x = unsafeCoerce# x
+{-# INLINE happyOut30 #-}
+happyIn31 :: (FieldValue) -> (HappyAbsSyn )
+happyIn31 x = unsafeCoerce# x
+{-# INLINE happyIn31 #-}
+happyOut31 :: (HappyAbsSyn ) -> (FieldValue)
+happyOut31 x = unsafeCoerce# x
+{-# INLINE happyOut31 #-}
+happyIn32 :: ([FieldValue]) -> (HappyAbsSyn )
+happyIn32 x = unsafeCoerce# x
+{-# INLINE happyIn32 #-}
+happyOut32 :: (HappyAbsSyn ) -> ([FieldValue])
+happyOut32 x = unsafeCoerce# x
+{-# INLINE happyOut32 #-}
+happyIn33 :: (Exp) -> (HappyAbsSyn )
+happyIn33 x = unsafeCoerce# x
+{-# INLINE happyIn33 #-}
+happyOut33 :: (HappyAbsSyn ) -> (Exp)
+happyOut33 x = unsafeCoerce# x
+{-# INLINE happyOut33 #-}
+happyInTok :: Token -> (HappyAbsSyn )
+happyInTok x = unsafeCoerce# x
+{-# INLINE happyInTok #-}
+happyOutTok :: (HappyAbsSyn ) -> Token
+happyOutTok x = unsafeCoerce# x
+{-# INLINE happyOutTok #-}
+
+happyActOffsets :: HappyAddr
+happyActOffsets = HappyA# "\x15\x00\x5f\x01\xcd\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xd0\x00\x00\x00\x7c\x01\xde\x00\x00\x00\x00\x00\x4a\x01\x09\x00\x00\x00\x5f\x01\xdf\x00\xd7\x00\xd6\x00\x00\x00\x00\x00\x00\x00\x00\x00\x35\x00\xbc\x00\x00\x00\xd1\x00\xc7\x00\xcf\x00\x15\x00\x5f\x01\x5f\x01\xc6\x00\xc6\x00\xc6\x00\xbe\x00\x00\x00\xc5\x00\x00\x00\x74\x01\xcb\x00\xc0\x00\xac\x00\xb9\x00\x5f\x01\x00\x00\x00\x00\x5f\x01\x5f\x01\xc1\x00\xb8\x00\xbb\x00\xb7\x00\xb5\x00\xb3\x00\xaf\x00\xb0\x00\xa9\x00\x9d\x00\x00\x00\x00\x00\x00\x00\x5f\x01\x94\x00\x00\x00\x86\x00\x5f\x01\x00\x00\x86\x00\x5f\x01\x8f\x00\x84\x00\x5f\x01\x96\x01\x00\x00\x90\x00\x8b\x00\x00\x00\x00\x00\x8d\x00\x00\x00\x8c\x00\x8a\x00\x7a\x00\x89\x00\x00\x00\x00\x00\x5f\x01\x00\x00\x00\x00\x00\x00\x00\x00\x81\x00\x69\x00\x00\x00\x69\x00\x00\x00\x00\x00\x96\x01\x5f\x01\x5f\x01\x00\x00\x71\x00\x00\x00\x91\x01\x75\x00\x78\x00\x74\x00\x6d\x00\x65\x00\x5c\x00\x00\x00\x43\x00\x5f\x01\x00\x00\x43\x00\x96\x01\x00\x00\x00\x00\x5f\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"#
+
+happyGotoOffsets :: HappyAddr
+happyGotoOffsets = HappyA# "\x4e\x00\x31\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x38\x01\x00\x00\x00\x00\x00\x00\x01\x00\x04\x00\x00\x00\x14\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x45\x00\x00\x00\x6a\x00\x0b\x01\xee\x00\x28\x00\x44\x00\x57\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x31\x00\x00\x00\xe5\x00\x00\x00\x00\x00\xc8\x00\xbf\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xa2\x00\x00\x00\x00\x00\x02\x00\x99\x00\x00\x00\x1e\x00\x7c\x00\x00\x00\x03\x00\x73\x00\xb4\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x18\x00\x00\x00\x00\x00\x00\x00\x56\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xa3\x00\x00\x00\x3e\x00\xff\xff\x00\x00\xae\x01\x4d\x00\x30\x00\x00\x00\x00\x00\x00\x00\xba\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x7d\x00\x27\x00\x00\x00\x21\x00\x3e\x01\x00\x00\x00\x00\x0a\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"#
+
+happyDefActions :: HappyAddr
+happyDefActions = HappyA# "\xf7\xff\x00\x00\x00\x00\xfd\xff\xca\xff\xc9\xff\xc8\xff\xc7\xff\xcc\xff\x00\x00\xde\xff\xbd\xff\xd1\xff\xcf\xff\xd3\xff\x00\x00\x00\x00\xcb\xff\x00\x00\x00\x00\x00\x00\x00\x00\xfc\xff\xfb\xff\xfa\xff\xf9\xff\x00\x00\x00\x00\xf8\xff\xf6\xff\x00\x00\x00\x00\xf7\xff\x00\x00\x00\x00\xc4\xff\xc0\xff\xdc\xff\x00\x00\xe2\xff\x00\x00\xe1\xff\xe2\xff\x00\x00\x00\x00\x00\x00\xd2\xff\x00\x00\xd0\xff\xc6\xff\x00\x00\x00\x00\x00\x00\x00\x00\xdb\xff\x00\x00\x00\x00\xbf\xff\x00\x00\x00\x00\xc3\xff\x00\x00\xf2\xff\xf3\xff\xf5\xff\x00\x00\x00\x00\xce\xff\xc4\xff\x00\x00\xcd\xff\xc0\xff\x00\x00\x00\x00\xdc\xff\x00\x00\xd8\xff\xd5\xff\x00\x00\x00\x00\xe8\xff\xe7\xff\x00\x00\xea\xff\xd7\xff\x00\x00\x00\x00\x00\x00\xdd\xff\xda\xff\x00\x00\xc1\xff\xbe\xff\xc5\xff\xc2\xff\x00\x00\xf0\xff\xe0\xff\xe5\xff\xed\xff\xdf\xff\xd8\xff\x00\x00\x00\x00\xd4\xff\x00\x00\xd6\xff\x00\x00\x00\x00\xe4\xff\x00\x00\x00\x00\xef\xff\x00\x00\xf4\xff\xf0\xff\x00\x00\xe9\xff\xe5\xff\x00\x00\xec\xff\xeb\xff\x00\x00\xd9\xff\xe6\xff\xe3\xff\xf1\xff\xee\xff"#
+
+happyCheck :: HappyAddr
+happyCheck = HappyA# "\xff\xff\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x04\x00\x04\x00\x04\x00\x0a\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x0e\x00\x0f\x00\x08\x00\x0e\x00\x10\x00\x11\x00\x14\x00\x15\x00\x16\x00\x17\x00\x0f\x00\x18\x00\x19\x00\x04\x00\x1c\x00\x14\x00\x15\x00\x16\x00\x17\x00\x04\x00\x1a\x00\x0f\x00\x04\x00\x1c\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x04\x00\x0c\x00\x0d\x00\x1a\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x04\x00\x0f\x00\x02\x00\x1a\x00\x1b\x00\x05\x00\x14\x00\x15\x00\x16\x00\x17\x00\x0f\x00\x18\x00\x19\x00\x04\x00\x1c\x00\x14\x00\x15\x00\x16\x00\x17\x00\x04\x00\x04\x00\x0c\x00\x0d\x00\x1c\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x04\x00\x05\x00\x06\x00\x07\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x04\x00\x0f\x00\x1a\x00\x1a\x00\x1b\x00\x04\x00\x14\x00\x15\x00\x16\x00\x17\x00\x0f\x00\x01\x00\x10\x00\x11\x00\x1c\x00\x14\x00\x15\x00\x16\x00\x17\x00\x04\x00\x02\x00\x06\x00\x07\x00\x1c\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x04\x00\x01\x00\x05\x00\x0a\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x04\x00\x0f\x00\x1a\x00\x03\x00\x08\x00\x09\x00\x14\x00\x15\x00\x16\x00\x17\x00\x0f\x00\x03\x00\x01\x00\x04\x00\x1c\x00\x14\x00\x15\x00\x16\x00\x17\x00\x1a\x00\x0a\x00\x09\x00\x07\x00\x1c\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x1a\x00\x10\x00\x1a\x00\x04\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x04\x00\x0f\x00\x15\x00\x01\x00\x08\x00\x09\x00\x14\x00\x15\x00\x16\x00\x17\x00\x0f\x00\x02\x00\x04\x00\x01\x00\x1c\x00\x14\x00\x15\x00\x16\x00\x17\x00\x05\x00\x04\x00\x01\x00\x05\x00\x1c\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x03\x00\x0c\x00\x1a\x00\x07\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x02\x00\x0f\x00\x0a\x00\x12\x00\x02\x00\x01\x00\x14\x00\x15\x00\x16\x00\x17\x00\x0f\x00\x1c\x00\x03\x00\x03\x00\x1c\x00\x14\x00\x15\x00\x16\x00\x17\x00\x1a\x00\x1a\x00\x03\x00\x16\x00\x1c\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x0c\x00\xff\xff\x1c\x00\xff\xff\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\xff\xff\x0f\x00\xff\xff\xff\xff\xff\xff\xff\xff\x14\x00\x15\x00\x16\x00\x17\x00\x0f\x00\xff\xff\xff\xff\xff\xff\x1c\x00\x14\x00\x15\x00\x16\x00\x17\x00\xff\xff\xff\xff\xff\xff\xff\xff\x1c\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\xff\xff\xff\xff\xff\xff\xff\xff\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\xff\xff\x0f\x00\xff\xff\xff\xff\xff\xff\xff\xff\x14\x00\x15\x00\x16\x00\x17\x00\x0f\x00\xff\xff\xff\xff\xff\xff\x1c\x00\x14\x00\x15\x00\x16\x00\x17\x00\xff\xff\xff\xff\xff\xff\xff\xff\x1c\x00\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\xff\xff\xff\xff\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\xff\xff\x00\x00\x01\x00\x0f\x00\xff\xff\x04\x00\xff\xff\xff\xff\x14\x00\x15\x00\x16\x00\x17\x00\x0b\x00\xff\xff\xff\xff\x0e\x00\x1c\x00\x16\x00\x17\x00\x06\x00\xff\xff\x08\x00\xff\xff\xff\xff\x0b\x00\xff\xff\x0d\x00\x0e\x00\xff\xff\xff\xff\x11\x00\xff\xff\x13\x00\x14\x00\xff\xff\x16\x00\x17\x00\x18\x00\x19\x00\x1a\x00\x06\x00\xff\xff\xff\xff\xff\xff\xff\xff\x0b\x00\xff\xff\x0d\x00\x0e\x00\xff\xff\xff\xff\x11\x00\xff\xff\x13\x00\x14\x00\xff\xff\x16\x00\x17\x00\x18\x00\x19\x00\x1a\x00\x06\x00\x07\x00\xff\xff\xff\xff\xff\xff\xff\xff\x0c\x00\x0d\x00\x06\x00\xff\xff\xff\xff\xff\xff\xff\xff\x13\x00\x14\x00\x0d\x00\x16\x00\x17\x00\x18\x00\x19\x00\x1a\x00\x13\x00\x14\x00\xff\xff\x16\x00\x17\x00\x18\x00\x19\x00\x1a\x00\x06\x00\x07\x00\x08\x00\xff\xff\xff\xff\x06\x00\xff\xff\x08\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x13\x00\xff\xff\xff\xff\x16\x00\x17\x00\x13\x00\xff\xff\x1a\x00\x16\x00\x17\x00\x00\x00\x01\x00\x1a\x00\xff\xff\x04\x00\xff\xff\x00\x00\x01\x00\xff\xff\xff\xff\x04\x00\x0b\x00\x00\x00\x01\x00\x0e\x00\xff\xff\x04\x00\x0b\x00\x12\x00\x13\x00\x0e\x00\xff\xff\xff\xff\x0b\x00\x12\x00\x13\x00\x0e\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff"#
+
+happyTable :: HappyAddr
+happyTable = HappyA# "\x00\x00\x04\x00\x05\x00\x06\x00\x07\x00\x2a\x00\x3b\x00\x35\x00\x27\x00\x6b\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x2b\x00\x2c\x00\x2a\x00\x28\x00\x36\x00\x59\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x7b\x00\x3c\x00\x5e\x00\x63\x00\x0e\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x38\x00\x1a\x00\x1f\x00\x6c\x00\x0e\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x3b\x00\x6d\x00\x7d\x00\x1a\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x30\x00\x7e\x00\x22\x00\x39\x00\x5c\x00\x23\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x68\x00\x3c\x00\x3d\x00\x6c\x00\x0e\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x38\x00\x1f\x00\x6d\x00\x6e\x00\x0e\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x1a\x00\x1b\x00\x1c\x00\x1d\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x35\x00\x69\x00\x1a\x00\x39\x00\x3a\x00\x73\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x61\x00\x74\x00\x36\x00\x37\x00\x0e\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x1a\x00\x75\x00\x40\x00\x1d\x00\x0e\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x76\x00\x77\x00\x78\x00\x7b\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x6f\x00\x58\x00\x1a\x00\x61\x00\x70\x00\x7f\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x5b\x00\x63\x00\x66\x00\x65\x00\x0e\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x1a\x00\x68\x00\x67\x00\x50\x00\x0e\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x1a\x00\x5b\x00\x1a\x00\x44\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x6f\x00\x5d\x00\x60\x00\x45\x00\x70\x00\x71\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x42\x00\x46\x00\x47\x00\x48\x00\x0e\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x49\x00\x4a\x00\x4b\x00\x4c\x00\x0e\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x4d\x00\x2e\x00\x1a\x00\x32\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x33\x00\x4d\x00\x34\x00\x35\x00\x42\x00\x21\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x4e\x00\xff\xff\x24\x00\x25\x00\x0e\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x1a\x00\x1a\x00\x26\x00\x04\x00\x0e\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x2e\x00\x00\x00\xff\xff\x00\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x00\x00\x2c\x00\x00\x00\x00\x00\x00\x00\x00\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x3e\x00\x00\x00\x00\x00\x00\x00\x0e\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x00\x00\x00\x00\x00\x00\x00\x00\x0e\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x00\x00\x00\x00\x00\x00\x00\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x00\x00\x3f\x00\x00\x00\x00\x00\x00\x00\x00\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x26\x00\x00\x00\x00\x00\x00\x00\x0e\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x00\x00\x00\x00\x00\x00\x00\x00\x0e\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x00\x00\x00\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x00\x00\x50\x00\x51\x00\x09\x00\x00\x00\x27\x00\x00\x00\x00\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x7c\x00\x00\x00\x00\x00\x53\x00\x0e\x00\x2e\x00\x0d\x00\x10\x00\x00\x00\x2a\x00\x00\x00\x00\x00\x11\x00\x00\x00\x12\x00\x13\x00\x00\x00\x00\x00\x14\x00\x00\x00\x15\x00\x16\x00\x00\x00\x04\x00\x17\x00\x18\x00\x19\x00\x1a\x00\x10\x00\x00\x00\x00\x00\x00\x00\x00\x00\x11\x00\x00\x00\x12\x00\x13\x00\x00\x00\x00\x00\x14\x00\x00\x00\x15\x00\x16\x00\x00\x00\x04\x00\x17\x00\x18\x00\x19\x00\x1a\x00\xcc\xff\xcc\xff\x00\x00\x00\x00\x00\x00\x00\x00\xcc\xff\xcc\xff\x30\x00\x00\x00\x00\x00\x00\x00\x00\x00\xcc\xff\xcc\xff\x12\x00\xcc\xff\xcc\xff\xcc\xff\xcc\xff\xcc\xff\x15\x00\x16\x00\x00\x00\x04\x00\x17\x00\x18\x00\x19\x00\x1a\x00\x57\x00\x7a\x00\x2a\x00\x00\x00\x00\x00\x57\x00\x00\x00\x2a\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x58\x00\x00\x00\x00\x00\x04\x00\x17\x00\x58\x00\x00\x00\x1a\x00\x04\x00\x17\x00\x50\x00\x51\x00\x1a\x00\x00\x00\x27\x00\x00\x00\x50\x00\x51\x00\x00\x00\x00\x00\x27\x00\x52\x00\x50\x00\x51\x00\x53\x00\x00\x00\x27\x00\x52\x00\x54\x00\x6a\x00\x53\x00\x00\x00\x00\x00\x78\x00\x54\x00\x55\x00\x53\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"#
+
+happyReduceArr = array (2, 66) [
+	(2 , happyReduce_2),
+	(3 , happyReduce_3),
+	(4 , happyReduce_4),
+	(5 , happyReduce_5),
+	(6 , happyReduce_6),
+	(7 , happyReduce_7),
+	(8 , happyReduce_8),
+	(9 , happyReduce_9),
+	(10 , happyReduce_10),
+	(11 , happyReduce_11),
+	(12 , happyReduce_12),
+	(13 , happyReduce_13),
+	(14 , happyReduce_14),
+	(15 , happyReduce_15),
+	(16 , happyReduce_16),
+	(17 , happyReduce_17),
+	(18 , happyReduce_18),
+	(19 , happyReduce_19),
+	(20 , happyReduce_20),
+	(21 , happyReduce_21),
+	(22 , happyReduce_22),
+	(23 , happyReduce_23),
+	(24 , happyReduce_24),
+	(25 , happyReduce_25),
+	(26 , happyReduce_26),
+	(27 , happyReduce_27),
+	(28 , happyReduce_28),
+	(29 , happyReduce_29),
+	(30 , happyReduce_30),
+	(31 , happyReduce_31),
+	(32 , happyReduce_32),
+	(33 , happyReduce_33),
+	(34 , happyReduce_34),
+	(35 , happyReduce_35),
+	(36 , happyReduce_36),
+	(37 , happyReduce_37),
+	(38 , happyReduce_38),
+	(39 , happyReduce_39),
+	(40 , happyReduce_40),
+	(41 , happyReduce_41),
+	(42 , happyReduce_42),
+	(43 , happyReduce_43),
+	(44 , happyReduce_44),
+	(45 , happyReduce_45),
+	(46 , happyReduce_46),
+	(47 , happyReduce_47),
+	(48 , happyReduce_48),
+	(49 , happyReduce_49),
+	(50 , happyReduce_50),
+	(51 , happyReduce_51),
+	(52 , happyReduce_52),
+	(53 , happyReduce_53),
+	(54 , happyReduce_54),
+	(55 , happyReduce_55),
+	(56 , happyReduce_56),
+	(57 , happyReduce_57),
+	(58 , happyReduce_58),
+	(59 , happyReduce_59),
+	(60 , happyReduce_60),
+	(61 , happyReduce_61),
+	(62 , happyReduce_62),
+	(63 , happyReduce_63),
+	(64 , happyReduce_64),
+	(65 , happyReduce_65),
+	(66 , happyReduce_66)
+	]
+
+happy_n_terms = 29 :: Int
+happy_n_nonterms = 29 :: Int
+
+happyReduce_2 = happySpecReduce_1 0# happyReduction_2
+happyReduction_2 happy_x_1
+	 =  case happyOutTok happy_x_1 of { (PT _ (TL happy_var_1)) -> 
+	happyIn5
+		 (happy_var_1
+	)}
+
+happyReduce_3 = happySpecReduce_1 1# happyReduction_3
+happyReduction_3 happy_x_1
+	 =  case happyOutTok happy_x_1 of { (PT _ (TI happy_var_1)) -> 
+	happyIn6
+		 ((read happy_var_1) :: Integer
+	)}
+
+happyReduce_4 = happySpecReduce_1 2# happyReduction_4
+happyReduction_4 happy_x_1
+	 =  case happyOutTok happy_x_1 of { (PT _ (TD happy_var_1)) -> 
+	happyIn7
+		 ((read happy_var_1) :: Double
+	)}
+
+happyReduce_5 = happySpecReduce_1 3# happyReduction_5
+happyReduction_5 happy_x_1
+	 =  case happyOutTok happy_x_1 of { (PT _ (T_TMeta happy_var_1)) -> 
+	happyIn8
+		 (TMeta (happy_var_1)
+	)}
+
+happyReduce_6 = happySpecReduce_1 4# happyReduction_6
+happyReduction_6 happy_x_1
+	 =  case happyOutTok happy_x_1 of { (PT _ (T_CIdent happy_var_1)) -> 
+	happyIn9
+		 (CIdent (happy_var_1)
+	)}
+
+happyReduce_7 = happySpecReduce_1 5# happyReduction_7
+happyReduction_7 happy_x_1
+	 =  case happyOut11 happy_x_1 of { happy_var_1 -> 
+	happyIn10
+		 (Module happy_var_1
+	)}
+
+happyReduce_8 = happySpecReduce_0 6# happyReduction_8
+happyReduction_8  =  happyIn11
+		 ([]
+	)
+
+happyReduce_9 = happySpecReduce_1 6# happyReduction_9
+happyReduction_9 happy_x_1
+	 =  case happyOut12 happy_x_1 of { happy_var_1 -> 
+	happyIn11
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_10 = happySpecReduce_3 6# happyReduction_10
+happyReduction_10 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut12 happy_x_1 of { happy_var_1 -> 
+	case happyOut11 happy_x_3 of { happy_var_3 -> 
+	happyIn11
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_11 = happyReduce 8# 7# happyReduction_11
+happyReduction_11 (happy_x_8 `HappyStk`
+	happy_x_7 `HappyStk`
+	happy_x_6 `HappyStk`
+	happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut9 happy_x_2 of { happy_var_2 -> 
+	case happyOut20 happy_x_4 of { happy_var_4 -> 
+	case happyOut14 happy_x_7 of { happy_var_7 -> 
+	happyIn12
+		 (DataDecl happy_var_2 happy_var_4 happy_var_7
+	) `HappyStk` happyRest}}}
+
+happyReduce_12 = happySpecReduce_3 7# happyReduction_12
+happyReduction_12 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut9 happy_x_1 of { happy_var_1 -> 
+	case happyOut20 happy_x_3 of { happy_var_3 -> 
+	happyIn12
+		 (TypeDecl happy_var_1 happy_var_3
+	)}}
+
+happyReduce_13 = happySpecReduce_3 7# happyReduction_13
+happyReduction_13 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut9 happy_x_1 of { happy_var_1 -> 
+	case happyOut20 happy_x_3 of { happy_var_3 -> 
+	happyIn12
+		 (ValueDecl happy_var_1 happy_var_3
+	)}}
+
+happyReduce_14 = happySpecReduce_3 8# happyReduction_14
+happyReduction_14 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut9 happy_x_1 of { happy_var_1 -> 
+	case happyOut20 happy_x_3 of { happy_var_3 -> 
+	happyIn13
+		 (ConsDecl happy_var_1 happy_var_3
+	)}}
+
+happyReduce_15 = happySpecReduce_0 9# happyReduction_15
+happyReduction_15  =  happyIn14
+		 ([]
+	)
+
+happyReduce_16 = happySpecReduce_1 9# happyReduction_16
+happyReduction_16 happy_x_1
+	 =  case happyOut13 happy_x_1 of { happy_var_1 -> 
+	happyIn14
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_17 = happySpecReduce_3 9# happyReduction_17
+happyReduction_17 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut13 happy_x_1 of { happy_var_1 -> 
+	case happyOut14 happy_x_3 of { happy_var_3 -> 
+	happyIn14
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_18 = happySpecReduce_0 10# happyReduction_18
+happyReduction_18  =  happyIn15
+		 ([]
+	)
+
+happyReduce_19 = happySpecReduce_2 10# happyReduction_19
+happyReduction_19 happy_x_2
+	happy_x_1
+	 =  case happyOut15 happy_x_1 of { happy_var_1 -> 
+	case happyOut16 happy_x_2 of { happy_var_2 -> 
+	happyIn15
+		 (flip (:) happy_var_1 happy_var_2
+	)}}
+
+happyReduce_20 = happyReduce 4# 11# happyReduction_20
+happyReduction_20 (happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut9 happy_x_2 of { happy_var_2 -> 
+	case happyOut15 happy_x_3 of { happy_var_3 -> 
+	happyIn16
+		 (PCons happy_var_2 (reverse happy_var_3)
+	) `HappyStk` happyRest}}
+
+happyReduce_21 = happySpecReduce_1 11# happyReduction_21
+happyReduction_21 happy_x_1
+	 =  case happyOut19 happy_x_1 of { happy_var_1 -> 
+	happyIn16
+		 (PVar happy_var_1
+	)}
+
+happyReduce_22 = happyReduce 4# 11# happyReduction_22
+happyReduction_22 (happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut18 happy_x_3 of { happy_var_3 -> 
+	happyIn16
+		 (PRec happy_var_3
+	) `HappyStk` happyRest}
+
+happyReduce_23 = happySpecReduce_1 11# happyReduction_23
+happyReduction_23 happy_x_1
+	 =  case happyOut5 happy_x_1 of { happy_var_1 -> 
+	happyIn16
+		 (PStr happy_var_1
+	)}
+
+happyReduce_24 = happySpecReduce_1 11# happyReduction_24
+happyReduction_24 happy_x_1
+	 =  case happyOut6 happy_x_1 of { happy_var_1 -> 
+	happyIn16
+		 (PInt happy_var_1
+	)}
+
+happyReduce_25 = happySpecReduce_3 12# happyReduction_25
+happyReduction_25 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut9 happy_x_1 of { happy_var_1 -> 
+	case happyOut16 happy_x_3 of { happy_var_3 -> 
+	happyIn17
+		 (FieldPattern happy_var_1 happy_var_3
+	)}}
+
+happyReduce_26 = happySpecReduce_0 13# happyReduction_26
+happyReduction_26  =  happyIn18
+		 ([]
+	)
+
+happyReduce_27 = happySpecReduce_1 13# happyReduction_27
+happyReduction_27 happy_x_1
+	 =  case happyOut17 happy_x_1 of { happy_var_1 -> 
+	happyIn18
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_28 = happySpecReduce_3 13# happyReduction_28
+happyReduction_28 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut17 happy_x_1 of { happy_var_1 -> 
+	case happyOut18 happy_x_3 of { happy_var_3 -> 
+	happyIn18
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_29 = happySpecReduce_1 14# happyReduction_29
+happyReduction_29 happy_x_1
+	 =  case happyOut9 happy_x_1 of { happy_var_1 -> 
+	happyIn19
+		 (PVVar happy_var_1
+	)}
+
+happyReduce_30 = happySpecReduce_1 14# happyReduction_30
+happyReduction_30 happy_x_1
+	 =  happyIn19
+		 (PVWild
+	)
+
+happyReduce_31 = happyReduce 6# 15# happyReduction_31
+happyReduction_31 (happy_x_6 `HappyStk`
+	happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut22 happy_x_3 of { happy_var_3 -> 
+	case happyOut20 happy_x_6 of { happy_var_6 -> 
+	happyIn20
+		 (ELet happy_var_3 happy_var_6
+	) `HappyStk` happyRest}}
+
+happyReduce_32 = happyReduce 6# 15# happyReduction_32
+happyReduction_32 (happy_x_6 `HappyStk`
+	happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut20 happy_x_2 of { happy_var_2 -> 
+	case happyOut24 happy_x_5 of { happy_var_5 -> 
+	happyIn20
+		 (ECase happy_var_2 happy_var_5
+	) `HappyStk` happyRest}}
+
+happyReduce_33 = happySpecReduce_1 15# happyReduction_33
+happyReduction_33 happy_x_1
+	 =  case happyOut25 happy_x_1 of { happy_var_1 -> 
+	happyIn20
+		 (happy_var_1
+	)}
+
+happyReduce_34 = happySpecReduce_3 16# happyReduction_34
+happyReduction_34 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut9 happy_x_1 of { happy_var_1 -> 
+	case happyOut20 happy_x_3 of { happy_var_3 -> 
+	happyIn21
+		 (LetDef happy_var_1 happy_var_3
+	)}}
+
+happyReduce_35 = happySpecReduce_0 17# happyReduction_35
+happyReduction_35  =  happyIn22
+		 ([]
+	)
+
+happyReduce_36 = happySpecReduce_1 17# happyReduction_36
+happyReduction_36 happy_x_1
+	 =  case happyOut21 happy_x_1 of { happy_var_1 -> 
+	happyIn22
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_37 = happySpecReduce_3 17# happyReduction_37
+happyReduction_37 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut21 happy_x_1 of { happy_var_1 -> 
+	case happyOut22 happy_x_3 of { happy_var_3 -> 
+	happyIn22
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_38 = happyReduce 5# 18# happyReduction_38
+happyReduction_38 (happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut16 happy_x_1 of { happy_var_1 -> 
+	case happyOut20 happy_x_3 of { happy_var_3 -> 
+	case happyOut20 happy_x_5 of { happy_var_5 -> 
+	happyIn23
+		 (Case happy_var_1 happy_var_3 happy_var_5
+	) `HappyStk` happyRest}}}
+
+happyReduce_39 = happySpecReduce_0 19# happyReduction_39
+happyReduction_39  =  happyIn24
+		 ([]
+	)
+
+happyReduce_40 = happySpecReduce_1 19# happyReduction_40
+happyReduction_40 happy_x_1
+	 =  case happyOut23 happy_x_1 of { happy_var_1 -> 
+	happyIn24
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_41 = happySpecReduce_3 19# happyReduction_41
+happyReduction_41 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut23 happy_x_1 of { happy_var_1 -> 
+	case happyOut24 happy_x_3 of { happy_var_3 -> 
+	happyIn24
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_42 = happyReduce 4# 20# happyReduction_42
+happyReduction_42 (happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut19 happy_x_2 of { happy_var_2 -> 
+	case happyOut20 happy_x_4 of { happy_var_4 -> 
+	happyIn25
+		 (EAbs happy_var_2 happy_var_4
+	) `HappyStk` happyRest}}
+
+happyReduce_43 = happyReduce 7# 20# happyReduction_43
+happyReduction_43 (happy_x_7 `HappyStk`
+	happy_x_6 `HappyStk`
+	happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut19 happy_x_2 of { happy_var_2 -> 
+	case happyOut20 happy_x_4 of { happy_var_4 -> 
+	case happyOut20 happy_x_7 of { happy_var_7 -> 
+	happyIn25
+		 (EPi happy_var_2 happy_var_4 happy_var_7
+	) `HappyStk` happyRest}}}
+
+happyReduce_44 = happySpecReduce_1 20# happyReduction_44
+happyReduction_44 happy_x_1
+	 =  case happyOut33 happy_x_1 of { happy_var_1 -> 
+	happyIn25
+		 (happy_var_1
+	)}
+
+happyReduce_45 = happySpecReduce_2 21# happyReduction_45
+happyReduction_45 happy_x_2
+	happy_x_1
+	 =  case happyOut26 happy_x_1 of { happy_var_1 -> 
+	case happyOut27 happy_x_2 of { happy_var_2 -> 
+	happyIn26
+		 (EApp happy_var_1 happy_var_2
+	)}}
+
+happyReduce_46 = happySpecReduce_1 21# happyReduction_46
+happyReduction_46 happy_x_1
+	 =  case happyOut27 happy_x_1 of { happy_var_1 -> 
+	happyIn26
+		 (happy_var_1
+	)}
+
+happyReduce_47 = happySpecReduce_3 22# happyReduction_47
+happyReduction_47 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut27 happy_x_1 of { happy_var_1 -> 
+	case happyOut9 happy_x_3 of { happy_var_3 -> 
+	happyIn27
+		 (EProj happy_var_1 happy_var_3
+	)}}
+
+happyReduce_48 = happySpecReduce_1 22# happyReduction_48
+happyReduction_48 happy_x_1
+	 =  case happyOut28 happy_x_1 of { happy_var_1 -> 
+	happyIn27
+		 (happy_var_1
+	)}
+
+happyReduce_49 = happyReduce 4# 23# happyReduction_49
+happyReduction_49 (happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut30 happy_x_3 of { happy_var_3 -> 
+	happyIn28
+		 (ERecType happy_var_3
+	) `HappyStk` happyRest}
+
+happyReduce_50 = happyReduce 4# 23# happyReduction_50
+happyReduction_50 (happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut32 happy_x_3 of { happy_var_3 -> 
+	happyIn28
+		 (ERec happy_var_3
+	) `HappyStk` happyRest}
+
+happyReduce_51 = happySpecReduce_1 23# happyReduction_51
+happyReduction_51 happy_x_1
+	 =  case happyOut9 happy_x_1 of { happy_var_1 -> 
+	happyIn28
+		 (EVar happy_var_1
+	)}
+
+happyReduce_52 = happySpecReduce_1 23# happyReduction_52
+happyReduction_52 happy_x_1
+	 =  happyIn28
+		 (EType
+	)
+
+happyReduce_53 = happySpecReduce_1 23# happyReduction_53
+happyReduction_53 happy_x_1
+	 =  case happyOut5 happy_x_1 of { happy_var_1 -> 
+	happyIn28
+		 (EStr happy_var_1
+	)}
+
+happyReduce_54 = happySpecReduce_1 23# happyReduction_54
+happyReduction_54 happy_x_1
+	 =  case happyOut6 happy_x_1 of { happy_var_1 -> 
+	happyIn28
+		 (EInteger happy_var_1
+	)}
+
+happyReduce_55 = happySpecReduce_1 23# happyReduction_55
+happyReduction_55 happy_x_1
+	 =  case happyOut7 happy_x_1 of { happy_var_1 -> 
+	happyIn28
+		 (EDouble happy_var_1
+	)}
+
+happyReduce_56 = happySpecReduce_1 23# happyReduction_56
+happyReduction_56 happy_x_1
+	 =  case happyOut8 happy_x_1 of { happy_var_1 -> 
+	happyIn28
+		 (EMeta happy_var_1
+	)}
+
+happyReduce_57 = happySpecReduce_3 23# happyReduction_57
+happyReduction_57 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut20 happy_x_2 of { happy_var_2 -> 
+	happyIn28
+		 (happy_var_2
+	)}
+
+happyReduce_58 = happySpecReduce_3 24# happyReduction_58
+happyReduction_58 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut9 happy_x_1 of { happy_var_1 -> 
+	case happyOut20 happy_x_3 of { happy_var_3 -> 
+	happyIn29
+		 (FieldType happy_var_1 happy_var_3
+	)}}
+
+happyReduce_59 = happySpecReduce_0 25# happyReduction_59
+happyReduction_59  =  happyIn30
+		 ([]
+	)
+
+happyReduce_60 = happySpecReduce_1 25# happyReduction_60
+happyReduction_60 happy_x_1
+	 =  case happyOut29 happy_x_1 of { happy_var_1 -> 
+	happyIn30
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_61 = happySpecReduce_3 25# happyReduction_61
+happyReduction_61 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut29 happy_x_1 of { happy_var_1 -> 
+	case happyOut30 happy_x_3 of { happy_var_3 -> 
+	happyIn30
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_62 = happySpecReduce_3 26# happyReduction_62
+happyReduction_62 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut9 happy_x_1 of { happy_var_1 -> 
+	case happyOut20 happy_x_3 of { happy_var_3 -> 
+	happyIn31
+		 (FieldValue happy_var_1 happy_var_3
+	)}}
+
+happyReduce_63 = happySpecReduce_0 27# happyReduction_63
+happyReduction_63  =  happyIn32
+		 ([]
+	)
+
+happyReduce_64 = happySpecReduce_1 27# happyReduction_64
+happyReduction_64 happy_x_1
+	 =  case happyOut31 happy_x_1 of { happy_var_1 -> 
+	happyIn32
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_65 = happySpecReduce_3 27# happyReduction_65
+happyReduction_65 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut31 happy_x_1 of { happy_var_1 -> 
+	case happyOut32 happy_x_3 of { happy_var_3 -> 
+	happyIn32
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_66 = happySpecReduce_1 28# happyReduction_66
+happyReduction_66 happy_x_1
+	 =  case happyOut26 happy_x_1 of { happy_var_1 -> 
+	happyIn33
+		 (happy_var_1
+	)}
+
+happyNewToken action sts stk [] =
+	happyDoAction 28# (error "reading EOF!") action sts stk []
+
+happyNewToken action sts stk (tk:tks) =
+	let cont i = happyDoAction i tk action sts stk tks in
+	case tk of {
+	PT _ (TS ";") -> cont 1#;
+	PT _ (TS ":") -> cont 2#;
+	PT _ (TS "{") -> cont 3#;
+	PT _ (TS "}") -> cont 4#;
+	PT _ (TS "=") -> cont 5#;
+	PT _ (TS "(") -> cont 6#;
+	PT _ (TS ")") -> cont 7#;
+	PT _ (TS "_") -> cont 8#;
+	PT _ (TS "|") -> cont 9#;
+	PT _ (TS "->") -> cont 10#;
+	PT _ (TS "\\") -> cont 11#;
+	PT _ (TS ".") -> cont 12#;
+	PT _ (TS "Type") -> cont 13#;
+	PT _ (TS "case") -> cont 14#;
+	PT _ (TS "data") -> cont 15#;
+	PT _ (TS "in") -> cont 16#;
+	PT _ (TS "let") -> cont 17#;
+	PT _ (TS "of") -> cont 18#;
+	PT _ (TS "rec") -> cont 19#;
+	PT _ (TS "sig") -> cont 20#;
+	PT _ (TS "where") -> cont 21#;
+	PT _ (TL happy_dollar_dollar) -> cont 22#;
+	PT _ (TI happy_dollar_dollar) -> cont 23#;
+	PT _ (TD happy_dollar_dollar) -> cont 24#;
+	PT _ (T_TMeta happy_dollar_dollar) -> cont 25#;
+	PT _ (T_CIdent happy_dollar_dollar) -> cont 26#;
+	_ -> cont 27#;
+	_ -> happyError' (tk:tks)
+	}
+
+happyError_ tk tks = happyError' (tk:tks)
+
+happyThen :: () => Err a -> (a -> Err b) -> Err b
+happyThen = (thenM)
+happyReturn :: () => a -> Err a
+happyReturn = (returnM)
+happyThen1 m k tks = (thenM) m (\a -> k a tks)
+happyReturn1 :: () => a -> b -> Err a
+happyReturn1 = \a tks -> (returnM) a
+happyError' :: () => [Token] -> Err a
+happyError' = happyError
+
+pModule tks = happySomeParser where
+  happySomeParser = happyThen (happyParse 0# tks) (\x -> happyReturn (happyOut10 x))
+
+pExp tks = happySomeParser where
+  happySomeParser = happyThen (happyParse 1# tks) (\x -> happyReturn (happyOut20 x))
+
+happySeq = happyDontSeq
+
+returnM :: a -> Err a
+returnM = return
+
+thenM :: Err a -> (a -> Err b) -> Err b
+thenM = (>>=)
+
+happyError :: [Token] -> Err a
+happyError ts =
+  Bad $ "syntax error at " ++ tokenPos ts ++ if null ts then [] else (" before " ++ unwords (map prToken (take 4 ts)))
+
+myLexer = tokens
+{-# LINE 1 "GenericTemplate.hs" #-}
+{-# LINE 1 "<built-in>" #-}
+{-# LINE 1 "<command line>" #-}
+{-# LINE 1 "GenericTemplate.hs" #-}
+-- $Id$
+
+{-# LINE 28 "GenericTemplate.hs" #-}
+
+
+data Happy_IntList = HappyCons Int# Happy_IntList
+
+
+
+
+
+{-# LINE 49 "GenericTemplate.hs" #-}
+
+{-# LINE 59 "GenericTemplate.hs" #-}
+
+{-# LINE 68 "GenericTemplate.hs" #-}
+
+infixr 9 `HappyStk`
+data HappyStk a = HappyStk a (HappyStk a)
+
+-----------------------------------------------------------------------------
+-- starting the parse
+
+happyParse start_state = happyNewToken start_state notHappyAtAll notHappyAtAll
+
+-----------------------------------------------------------------------------
+-- Accepting the parse
+
+-- If the current token is 0#, it means we've just accepted a partial
+-- parse (a %partial parser).  We must ignore the saved token on the top of
+-- the stack in this case.
+happyAccept 0# tk st sts (_ `HappyStk` ans `HappyStk` _) =
+	happyReturn1 ans
+happyAccept j tk st sts (HappyStk ans _) = 
+	(happyTcHack j (happyTcHack st)) (happyReturn1 ans)
+
+-----------------------------------------------------------------------------
+-- Arrays only: do the next action
+
+
+
+happyDoAction i tk st
+	= {- nothing -}
+
+
+	  case action of
+		0#		  -> {- nothing -}
+				     happyFail i tk st
+		-1# 	  -> {- nothing -}
+				     happyAccept i tk st
+		n | (n <# (0# :: Int#)) -> {- nothing -}
+
+				     (happyReduceArr ! rule) i tk st
+				     where rule = (I# ((negateInt# ((n +# (1# :: Int#))))))
+		n		  -> {- nothing -}
+
+
+				     happyShift new_state i tk st
+				     where new_state = (n -# (1# :: Int#))
+   where off    = indexShortOffAddr happyActOffsets st
+	 off_i  = (off +# i)
+	 check  = if (off_i >=# (0# :: Int#))
+			then (indexShortOffAddr happyCheck off_i ==#  i)
+			else False
+ 	 action | check     = indexShortOffAddr happyTable off_i
+		| otherwise = indexShortOffAddr happyDefActions st
+
+{-# LINE 127 "GenericTemplate.hs" #-}
+
+
+indexShortOffAddr (HappyA# arr) off =
+#if __GLASGOW_HASKELL__ > 500
+	narrow16Int# i
+#elif __GLASGOW_HASKELL__ == 500
+	intToInt16# i
+#else
+	(i `iShiftL#` 16#) `iShiftRA#` 16#
+#endif
+  where
+#if __GLASGOW_HASKELL__ >= 503
+	i = word2Int# ((high `uncheckedShiftL#` 8#) `or#` low)
+#else
+	i = word2Int# ((high `shiftL#` 8#) `or#` low)
+#endif
+	high = int2Word# (ord# (indexCharOffAddr# arr (off' +# 1#)))
+	low  = int2Word# (ord# (indexCharOffAddr# arr off'))
+	off' = off *# 2#
+
+
+
+
+
+data HappyAddr = HappyA# Addr#
+
+
+
+
+-----------------------------------------------------------------------------
+-- HappyState data type (not arrays)
+
+{-# LINE 170 "GenericTemplate.hs" #-}
+
+-----------------------------------------------------------------------------
+-- Shifting a token
+
+happyShift new_state 0# tk st sts stk@(x `HappyStk` _) =
+     let i = (case unsafeCoerce# x of { (I# (i)) -> i }) in
+--     trace "shifting the error token" $
+     happyDoAction i tk new_state (HappyCons (st) (sts)) (stk)
+
+happyShift new_state i tk st sts stk =
+     happyNewToken new_state (HappyCons (st) (sts)) ((happyInTok (tk))`HappyStk`stk)
+
+-- happyReduce is specialised for the common cases.
+
+happySpecReduce_0 i fn 0# tk st sts stk
+     = happyFail 0# tk st sts stk
+happySpecReduce_0 nt fn j tk st@((action)) sts stk
+     = happyGoto nt j tk st (HappyCons (st) (sts)) (fn `HappyStk` stk)
+
+happySpecReduce_1 i fn 0# tk st sts stk
+     = happyFail 0# tk st sts stk
+happySpecReduce_1 nt fn j tk _ sts@((HappyCons (st@(action)) (_))) (v1`HappyStk`stk')
+     = let r = fn v1 in
+       happySeq r (happyGoto nt j tk st sts (r `HappyStk` stk'))
+
+happySpecReduce_2 i fn 0# tk st sts stk
+     = happyFail 0# tk st sts stk
+happySpecReduce_2 nt fn j tk _ (HappyCons (_) (sts@((HappyCons (st@(action)) (_))))) (v1`HappyStk`v2`HappyStk`stk')
+     = let r = fn v1 v2 in
+       happySeq r (happyGoto nt j tk st sts (r `HappyStk` stk'))
+
+happySpecReduce_3 i fn 0# tk st sts stk
+     = happyFail 0# tk st sts stk
+happySpecReduce_3 nt fn j tk _ (HappyCons (_) ((HappyCons (_) (sts@((HappyCons (st@(action)) (_))))))) (v1`HappyStk`v2`HappyStk`v3`HappyStk`stk')
+     = let r = fn v1 v2 v3 in
+       happySeq r (happyGoto nt j tk st sts (r `HappyStk` stk'))
+
+happyReduce k i fn 0# tk st sts stk
+     = happyFail 0# tk st sts stk
+happyReduce k nt fn j tk st sts stk
+     = case happyDrop (k -# (1# :: Int#)) sts of
+	 sts1@((HappyCons (st1@(action)) (_))) ->
+        	let r = fn stk in  -- it doesn't hurt to always seq here...
+       		happyDoSeq r (happyGoto nt j tk st1 sts1 r)
+
+happyMonadReduce k nt fn 0# tk st sts stk
+     = happyFail 0# tk st sts stk
+happyMonadReduce k nt fn j tk st sts stk =
+        happyThen1 (fn stk) (\r -> happyGoto nt j tk st1 sts1 (r `HappyStk` drop_stk))
+       where sts1@((HappyCons (st1@(action)) (_))) = happyDrop k (HappyCons (st) (sts))
+             drop_stk = happyDropStk k stk
+
+happyDrop 0# l = l
+happyDrop n (HappyCons (_) (t)) = happyDrop (n -# (1# :: Int#)) t
+
+happyDropStk 0# l = l
+happyDropStk n (x `HappyStk` xs) = happyDropStk (n -# (1#::Int#)) xs
+
+-----------------------------------------------------------------------------
+-- Moving to a new state after a reduction
+
+
+happyGoto nt j tk st = 
+   {- nothing -}
+   happyDoAction j tk new_state
+   where off    = indexShortOffAddr happyGotoOffsets st
+	 off_i  = (off +# nt)
+ 	 new_state = indexShortOffAddr happyTable off_i
+
+
+
+
+-----------------------------------------------------------------------------
+-- Error recovery (0# is the error token)
+
+-- parse error if we are in recovery and we fail again
+happyFail  0# tk old_st _ stk =
+--	trace "failing" $ 
+    	happyError_ tk
+
+{-  We don't need state discarding for our restricted implementation of
+    "error".  In fact, it can cause some bogus parses, so I've disabled it
+    for now --SDM
+
+-- discard a state
+happyFail  0# tk old_st (HappyCons ((action)) (sts)) 
+						(saved_tok `HappyStk` _ `HappyStk` stk) =
+--	trace ("discarding state, depth " ++ show (length stk))  $
+	happyDoAction 0# tk action sts ((saved_tok`HappyStk`stk))
+-}
+
+-- Enter error recovery: generate an error token,
+--                       save the old token and carry on.
+happyFail  i tk (action) sts stk =
+--      trace "entering error recovery" $
+	happyDoAction 0# tk action sts ( (unsafeCoerce# (I# (i))) `HappyStk` stk)
+
+-- Internal happy errors:
+
+notHappyAtAll = error "Internal Happy error\n"
+
+-----------------------------------------------------------------------------
+-- Hack to get the typechecker to accept our action functions
+
+
+happyTcHack :: Int# -> a -> a
+happyTcHack x y = y
+{-# INLINE happyTcHack #-}
+
+
+-----------------------------------------------------------------------------
+-- Seq-ing.  If the --strict flag is given, then Happy emits 
+--	happySeq = happyDoSeq
+-- otherwise it emits
+-- 	happySeq = happyDontSeq
+
+happyDoSeq, happyDontSeq :: a -> b -> b
+happyDoSeq   a b = a `seq` b
+happyDontSeq a b = b
+
+-----------------------------------------------------------------------------
+-- Don't inline any functions from the template.  GHC has a nasty habit
+-- of deciding to inline happyGoto everywhere, which increases the size of
+-- the generated parser quite a bit.
+
+
+{-# NOINLINE happyDoAction #-}
+{-# NOINLINE happyTable #-}
+{-# NOINLINE happyCheck #-}
+{-# NOINLINE happyActOffsets #-}
+{-# NOINLINE happyGotoOffsets #-}
+{-# NOINLINE happyDefActions #-}
+
+{-# NOINLINE happyShift #-}
+{-# NOINLINE happySpecReduce_0 #-}
+{-# NOINLINE happySpecReduce_1 #-}
+{-# NOINLINE happySpecReduce_2 #-}
+{-# NOINLINE happySpecReduce_3 #-}
+{-# NOINLINE happyReduce #-}
+{-# NOINLINE happyMonadReduce #-}
+{-# NOINLINE happyGoto #-}
+{-# NOINLINE happyFail #-}
+
+-- end of Happy Template.
diff --git a/src/Transfer/Core/Par.y b/src/Transfer/Core/Par.y
new file mode 100644
index 000000000..ceeaa313f
--- /dev/null
+++ b/src/Transfer/Core/Par.y
@@ -0,0 +1,203 @@
+-- This Happy file was machine-generated by the BNF converter
+{
+{-# OPTIONS -fno-warn-incomplete-patterns -fno-warn-overlapping-patterns #-}
+module Transfer.Core.Par where
+import Transfer.Core.Abs
+import Transfer.Core.Lex
+import Transfer.ErrM
+}
+
+%name pModule Module
+%name pExp Exp
+
+-- no lexer declaration
+%monad { Err } { thenM } { returnM }
+%tokentype { Token }
+
+%token 
+ ';' { PT _ (TS ";") }
+ ':' { PT _ (TS ":") }
+ '{' { PT _ (TS "{") }
+ '}' { PT _ (TS "}") }
+ '=' { PT _ (TS "=") }
+ '(' { PT _ (TS "(") }
+ ')' { PT _ (TS ")") }
+ '_' { PT _ (TS "_") }
+ '|' { PT _ (TS "|") }
+ '->' { PT _ (TS "->") }
+ '\\' { PT _ (TS "\\") }
+ '.' { PT _ (TS ".") }
+ 'Type' { PT _ (TS "Type") }
+ 'case' { PT _ (TS "case") }
+ 'data' { PT _ (TS "data") }
+ 'in' { PT _ (TS "in") }
+ 'let' { PT _ (TS "let") }
+ 'of' { PT _ (TS "of") }
+ 'rec' { PT _ (TS "rec") }
+ 'sig' { PT _ (TS "sig") }
+ 'where' { PT _ (TS "where") }
+
+L_quoted { PT _ (TL $$) }
+L_integ  { PT _ (TI $$) }
+L_doubl  { PT _ (TD $$) }
+L_TMeta { PT _ (T_TMeta $$) }
+L_CIdent { PT _ (T_CIdent $$) }
+L_err    { _ }
+
+
+%%
+
+String  :: { String }  : L_quoted { $1 }
+Integer :: { Integer } : L_integ  { (read $1) :: Integer }
+Double  :: { Double }  : L_doubl  { (read $1) :: Double }
+TMeta    :: { TMeta} : L_TMeta { TMeta ($1)}
+CIdent    :: { CIdent} : L_CIdent { CIdent ($1)}
+
+Module :: { Module }
+Module : ListDecl { Module $1 } 
+
+
+ListDecl :: { [Decl] }
+ListDecl : {- empty -} { [] } 
+  | Decl { (:[]) $1 }
+  | Decl ';' ListDecl { (:) $1 $3 }
+
+
+Decl :: { Decl }
+Decl : 'data' CIdent ':' Exp 'where' '{' ListConsDecl '}' { DataDecl $2 $4 $7 } 
+  | CIdent ':' Exp { TypeDecl $1 $3 }
+  | CIdent '=' Exp { ValueDecl $1 $3 }
+
+
+ConsDecl :: { ConsDecl }
+ConsDecl : CIdent ':' Exp { ConsDecl $1 $3 } 
+
+
+ListConsDecl :: { [ConsDecl] }
+ListConsDecl : {- empty -} { [] } 
+  | ConsDecl { (:[]) $1 }
+  | ConsDecl ';' ListConsDecl { (:) $1 $3 }
+
+
+ListPattern :: { [Pattern] }
+ListPattern : {- empty -} { [] } 
+  | ListPattern Pattern { flip (:) $1 $2 }
+
+
+Pattern :: { Pattern }
+Pattern : '(' CIdent ListPattern ')' { PCons $2 (reverse $3) } 
+  | PatternVariable { PVar $1 }
+  | 'rec' '{' ListFieldPattern '}' { PRec $3 }
+  | String { PStr $1 }
+  | Integer { PInt $1 }
+
+
+FieldPattern :: { FieldPattern }
+FieldPattern : CIdent '=' Pattern { FieldPattern $1 $3 } 
+
+
+ListFieldPattern :: { [FieldPattern] }
+ListFieldPattern : {- empty -} { [] } 
+  | FieldPattern { (:[]) $1 }
+  | FieldPattern ';' ListFieldPattern { (:) $1 $3 }
+
+
+PatternVariable :: { PatternVariable }
+PatternVariable : CIdent { PVVar $1 } 
+  | '_' { PVWild }
+
+
+Exp :: { Exp }
+Exp : 'let' '{' ListLetDef '}' 'in' Exp { ELet $3 $6 } 
+  | 'case' Exp 'of' '{' ListCase '}' { ECase $2 $5 }
+  | Exp1 { $1 }
+
+
+LetDef :: { LetDef }
+LetDef : CIdent '=' Exp { LetDef $1 $3 } 
+
+
+ListLetDef :: { [LetDef] }
+ListLetDef : {- empty -} { [] } 
+  | LetDef { (:[]) $1 }
+  | LetDef ';' ListLetDef { (:) $1 $3 }
+
+
+Case :: { Case }
+Case : Pattern '|' Exp '->' Exp { Case $1 $3 $5 } 
+
+
+ListCase :: { [Case] }
+ListCase : {- empty -} { [] } 
+  | Case { (:[]) $1 }
+  | Case ';' ListCase { (:) $1 $3 }
+
+
+Exp1 :: { Exp }
+Exp1 : '\\' PatternVariable '->' Exp { EAbs $2 $4 } 
+  | '(' PatternVariable ':' Exp ')' '->' Exp { EPi $2 $4 $7 }
+  | Exp2 { $1 }
+
+
+Exp3 :: { Exp }
+Exp3 : Exp3 Exp4 { EApp $1 $2 } 
+  | Exp4 { $1 }
+
+
+Exp4 :: { Exp }
+Exp4 : Exp4 '.' CIdent { EProj $1 $3 } 
+  | Exp5 { $1 }
+
+
+Exp5 :: { Exp }
+Exp5 : 'sig' '{' ListFieldType '}' { ERecType $3 } 
+  | 'rec' '{' ListFieldValue '}' { ERec $3 }
+  | CIdent { EVar $1 }
+  | 'Type' { EType }
+  | String { EStr $1 }
+  | Integer { EInteger $1 }
+  | Double { EDouble $1 }
+  | TMeta { EMeta $1 }
+  | '(' Exp ')' { $2 }
+
+
+FieldType :: { FieldType }
+FieldType : CIdent ':' Exp { FieldType $1 $3 } 
+
+
+ListFieldType :: { [FieldType] }
+ListFieldType : {- empty -} { [] } 
+  | FieldType { (:[]) $1 }
+  | FieldType ';' ListFieldType { (:) $1 $3 }
+
+
+FieldValue :: { FieldValue }
+FieldValue : CIdent '=' Exp { FieldValue $1 $3 } 
+
+
+ListFieldValue :: { [FieldValue] }
+ListFieldValue : {- empty -} { [] } 
+  | FieldValue { (:[]) $1 }
+  | FieldValue ';' ListFieldValue { (:) $1 $3 }
+
+
+Exp2 :: { Exp }
+Exp2 : Exp3 { $1 } 
+
+
+
+{
+
+returnM :: a -> Err a
+returnM = return
+
+thenM :: Err a -> (a -> Err b) -> Err b
+thenM = (>>=)
+
+happyError :: [Token] -> Err a
+happyError ts =
+  Bad $ "syntax error at " ++ tokenPos ts ++ if null ts then [] else (" before " ++ unwords (map prToken (take 4 ts)))
+
+myLexer = tokens
+}
+
diff --git a/src/Transfer/Core/Print.hs b/src/Transfer/Core/Print.hs
new file mode 100644
index 000000000..50929716a
--- /dev/null
+++ b/src/Transfer/Core/Print.hs
@@ -0,0 +1,155 @@
+{-# OPTIONS_GHC -fglasgow-exts #-}
+module Transfer.Core.Print where
+
+-- pretty-printer generated by the BNF converter
+
+import Transfer.Core.Abs
+import Data.Char
+import Data.List (intersperse)
+
+-- the top-level printing method
+printTree :: Print a => a -> String
+printTree = render . prt 0
+
+type Doc = [ShowS] -> [ShowS]
+
+doc :: ShowS -> Doc
+doc = (:)
+
+render :: Doc -> String
+render d = rend 0 (map ($ "") $ d []) "" where
+  rend i ss = case ss of
+    "["      :ts -> showChar '[' . rend i ts
+    "("      :ts -> showChar '(' . rend i ts
+    "{"      :ts -> showChar '{' . new (i+1) . rend (i+1) ts
+    "}" : ";":ts -> new (i-1) . space "}" . showChar ';' . new (i-1) . rend (i-1) ts
+    "}"      :ts -> new (i-1) . showChar '}' . new (i-1) . rend (i-1) ts
+    ";"      :ts -> showChar ';' . new i . rend i ts
+    t  : "," :ts -> showString t . space "," . rend i ts
+    t  : ")" :ts -> showString t . showChar ')' . rend i ts
+    t  : "]" :ts -> showString t . showChar ']' . rend i ts
+    t        :ts -> space t . rend i ts
+    _            -> id
+  new i   = showChar '\n' . replicateS (2*i) (showChar ' ') . dropWhile isSpace
+  space t = showString t . (\s -> if null s then "" else (' ':s))
+
+parenth :: Doc -> Doc
+parenth ss = doc (showChar '(') . ss . doc (showChar ')')
+
+concatS :: [ShowS] -> ShowS
+concatS = foldr (.) id
+
+concatD :: [Doc] -> Doc
+concatD = foldr (.) id
+
+unwordsD :: [Doc] -> Doc
+unwordsD = concatD . intersperse (doc (showChar ' '))
+
+replicateS :: Int -> ShowS -> ShowS
+replicateS n f = concatS (replicate n f)
+
+-- the printer class does the job
+class Print a where
+  prt :: Int -> a -> Doc
+
+instance Print Char where
+  prt _ s = doc (showChar '\'' . mkEsc '\'' s . showChar '\'')
+
+instance Print String where
+  prt _ s = doc (showChar '"' . concatS (map (mkEsc '"') s) . showChar '"')
+
+mkEsc :: Char -> Char -> ShowS
+mkEsc q s = case s of
+  _ | s == q -> showChar '\\' . showChar s
+  '\\'-> showString "\\\\"
+  '\n' -> showString "\\n"
+  '\t' -> showString "\\t"
+  _ -> showChar s
+
+prPrec :: Int -> Int -> Doc -> Doc
+prPrec i j = if j<i then parenth else id
+
+
+instance Print Integer where
+  prt _ x = doc (shows x)
+
+
+instance Print Double where
+  prt _ x = doc (shows x)
+
+
+instance Print (Tree c) where
+  prt _i e = case e of
+    Module decls -> prPrec _i 0 (concatD [prt 0 decls])
+    DataDecl cident exp consdecls -> prPrec _i 0 (concatD [doc (showString "data") , prt 0 cident , doc (showString ":") , prt 0 exp , doc (showString "where") , doc (showString "{") , prt 0 consdecls , doc (showString "}")])
+    TypeDecl cident exp -> prPrec _i 0 (concatD [prt 0 cident , doc (showString ":") , prt 0 exp])
+    ValueDecl cident exp -> prPrec _i 0 (concatD [prt 0 cident , doc (showString "=") , prt 0 exp])
+    ConsDecl cident exp -> prPrec _i 0 (concatD [prt 0 cident , doc (showString ":") , prt 0 exp])
+    PCons cident patterns -> prPrec _i 0 (concatD [doc (showString "(") , prt 0 cident , prt 0 patterns , doc (showString ")")])
+    PVar patternvariable -> prPrec _i 0 (concatD [prt 0 patternvariable])
+    PRec fieldpatterns -> prPrec _i 0 (concatD [doc (showString "rec") , doc (showString "{") , prt 0 fieldpatterns , doc (showString "}")])
+    PStr str -> prPrec _i 0 (concatD [prt 0 str])
+    PInt n -> prPrec _i 0 (concatD [prt 0 n])
+    FieldPattern cident pattern -> prPrec _i 0 (concatD [prt 0 cident , doc (showString "=") , prt 0 pattern])
+    PVVar cident -> prPrec _i 0 (concatD [prt 0 cident])
+    PVWild  -> prPrec _i 0 (concatD [doc (showString "_")])
+    ELet letdefs exp -> prPrec _i 0 (concatD [doc (showString "let") , doc (showString "{") , prt 0 letdefs , doc (showString "}") , doc (showString "in") , prt 0 exp])
+    ECase exp cases -> prPrec _i 0 (concatD [doc (showString "case") , prt 0 exp , doc (showString "of") , doc (showString "{") , prt 0 cases , doc (showString "}")])
+    EAbs patternvariable exp -> prPrec _i 1 (concatD [doc (showString "\\") , prt 0 patternvariable , doc (showString "->") , prt 0 exp])
+    EPi patternvariable exp0 exp1 -> prPrec _i 1 (concatD [doc (showString "(") , prt 0 patternvariable , doc (showString ":") , prt 0 exp0 , doc (showString ")") , doc (showString "->") , prt 0 exp1])
+    EApp exp0 exp1 -> prPrec _i 3 (concatD [prt 3 exp0 , prt 4 exp1])
+    EProj exp cident -> prPrec _i 4 (concatD [prt 4 exp , doc (showString ".") , prt 0 cident])
+    ERecType fieldtypes -> prPrec _i 5 (concatD [doc (showString "sig") , doc (showString "{") , prt 0 fieldtypes , doc (showString "}")])
+    ERec fieldvalues -> prPrec _i 5 (concatD [doc (showString "rec") , doc (showString "{") , prt 0 fieldvalues , doc (showString "}")])
+    EVar cident -> prPrec _i 5 (concatD [prt 0 cident])
+    EType  -> prPrec _i 5 (concatD [doc (showString "Type")])
+    EStr str -> prPrec _i 5 (concatD [prt 0 str])
+    EInteger n -> prPrec _i 5 (concatD [prt 0 n])
+    EDouble d -> prPrec _i 5 (concatD [prt 0 d])
+    EMeta tmeta -> prPrec _i 5 (concatD [prt 0 tmeta])
+    LetDef cident exp -> prPrec _i 0 (concatD [prt 0 cident , doc (showString "=") , prt 0 exp])
+    Case pattern exp0 exp1 -> prPrec _i 0 (concatD [prt 0 pattern , doc (showString "|") , prt 0 exp0 , doc (showString "->") , prt 0 exp1])
+    FieldType cident exp -> prPrec _i 0 (concatD [prt 0 cident , doc (showString ":") , prt 0 exp])
+    FieldValue cident exp -> prPrec _i 0 (concatD [prt 0 cident , doc (showString "=") , prt 0 exp])
+    TMeta str -> prPrec _i 0 (doc (showString str))
+    CIdent str -> prPrec _i 0 (doc (showString str))
+
+instance Print [Decl] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [ConsDecl] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [Pattern] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   x:xs -> (concatD [prt 0 x , prt 0 xs])
+instance Print [FieldPattern] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [LetDef] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [Case] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [FieldType] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [FieldValue] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
diff --git a/src/Transfer/Core/Skel.hs b/src/Transfer/Core/Skel.hs
new file mode 100644
index 000000000..005ae92b1
--- /dev/null
+++ b/src/Transfer/Core/Skel.hs
@@ -0,0 +1,119 @@
+module Transfer.Core.Skel where
+
+-- Haskell module generated by the BNF converter
+
+import Transfer.Core.Abs
+import Transfer.ErrM
+type Result = Err String
+
+failure :: Show a => a -> Result
+failure x = Bad $ "Undefined case: " ++ show x
+
+transTree :: Tree c -> Result
+transTree t = case t of
+  Module decls -> failure t
+  DataDecl cident exp consdecls -> failure t
+  TypeDecl cident exp -> failure t
+  ValueDecl cident exp -> failure t
+  ConsDecl cident exp -> failure t
+  PCons cident patterns -> failure t
+  PVar patternvariable -> failure t
+  PRec fieldpatterns -> failure t
+  PStr str -> failure t
+  PInt n -> failure t
+  FieldPattern cident pattern -> failure t
+  PVVar cident -> failure t
+  PVWild  -> failure t
+  ELet letdefs exp -> failure t
+  ECase exp cases -> failure t
+  EAbs patternvariable exp -> failure t
+  EPi patternvariable exp0 exp1 -> failure t
+  EApp exp0 exp1 -> failure t
+  EProj exp cident -> failure t
+  ERecType fieldtypes -> failure t
+  ERec fieldvalues -> failure t
+  EVar cident -> failure t
+  EType  -> failure t
+  EStr str -> failure t
+  EInteger n -> failure t
+  EDouble d -> failure t
+  EMeta tmeta -> failure t
+  LetDef cident exp -> failure t
+  Case pattern exp0 exp1 -> failure t
+  FieldType cident exp -> failure t
+  FieldValue cident exp -> failure t
+  TMeta str -> failure t
+  CIdent str -> failure t
+
+transModule :: Module -> Result
+transModule t = case t of
+  Module decls -> failure t
+
+transDecl :: Decl -> Result
+transDecl t = case t of
+  DataDecl cident exp consdecls -> failure t
+  TypeDecl cident exp -> failure t
+  ValueDecl cident exp -> failure t
+
+transConsDecl :: ConsDecl -> Result
+transConsDecl t = case t of
+  ConsDecl cident exp -> failure t
+
+transPattern :: Pattern -> Result
+transPattern t = case t of
+  PCons cident patterns -> failure t
+  PVar patternvariable -> failure t
+  PRec fieldpatterns -> failure t
+  PStr str -> failure t
+  PInt n -> failure t
+
+transFieldPattern :: FieldPattern -> Result
+transFieldPattern t = case t of
+  FieldPattern cident pattern -> failure t
+
+transPatternVariable :: PatternVariable -> Result
+transPatternVariable t = case t of
+  PVVar cident -> failure t
+  PVWild  -> failure t
+
+transExp :: Exp -> Result
+transExp t = case t of
+  ELet letdefs exp -> failure t
+  ECase exp cases -> failure t
+  EAbs patternvariable exp -> failure t
+  EPi patternvariable exp0 exp1 -> failure t
+  EApp exp0 exp1 -> failure t
+  EProj exp cident -> failure t
+  ERecType fieldtypes -> failure t
+  ERec fieldvalues -> failure t
+  EVar cident -> failure t
+  EType  -> failure t
+  EStr str -> failure t
+  EInteger n -> failure t
+  EDouble d -> failure t
+  EMeta tmeta -> failure t
+
+transLetDef :: LetDef -> Result
+transLetDef t = case t of
+  LetDef cident exp -> failure t
+
+transCase :: Case -> Result
+transCase t = case t of
+  Case pattern exp0 exp1 -> failure t
+
+transFieldType :: FieldType -> Result
+transFieldType t = case t of
+  FieldType cident exp -> failure t
+
+transFieldValue :: FieldValue -> Result
+transFieldValue t = case t of
+  FieldValue cident exp -> failure t
+
+transTMeta :: TMeta -> Result
+transTMeta t = case t of
+  TMeta str -> failure t
+
+transCIdent :: CIdent -> Result
+transCIdent t = case t of
+  CIdent str -> failure t
+
diff --git a/src/Transfer/Core/Test.hs b/src/Transfer/Core/Test.hs
new file mode 100644
index 000000000..570beed51
--- /dev/null
+++ b/src/Transfer/Core/Test.hs
@@ -0,0 +1,58 @@
+-- automatically generated by BNF Converter
+module Main where
+
+
+import IO ( stdin, hGetContents )
+import System ( getArgs, getProgName )
+
+import Transfer.Core.Lex
+import Transfer.Core.Par
+import Transfer.Core.Skel
+import Transfer.Core.Print
+import Transfer.Core.Abs
+
+
+
+
+import Transfer.ErrM
+
+type ParseFun a = [Token] -> Err a
+
+myLLexer = myLexer
+
+type Verbosity = Int
+
+putStrV :: Verbosity -> String -> IO ()
+putStrV v s = if v > 1 then putStrLn s else return ()
+
+runFile :: (Print a, Show a) => Verbosity -> ParseFun a -> FilePath -> IO ()
+runFile v p f = putStrLn f >> readFile f >>= run v p
+
+run :: (Print a, Show a) => Verbosity -> ParseFun a -> String -> IO ()
+run v p s = let ts = myLLexer s in case p ts of
+           Bad s    -> do putStrLn "\nParse              Failed...\n"
+                          putStrV v "Tokens:"
+                          putStrV v $ show ts
+                          putStrLn s
+           Ok  tree -> do putStrLn "\nParse Successful!"
+                          showTree v tree
+
+
+
+showTree :: (Show a, Print a) => Int -> a -> IO ()
+showTree v tree
+ = do
+      putStrV v $ "\n[Abstract Syntax]\n\n" ++ show tree
+      putStrV v $ "\n[Linearized tree]\n\n" ++ printTree tree
+
+main :: IO ()
+main = do args <- getArgs
+          case args of
+            [] -> hGetContents stdin >>= run 2 pModule
+            "-s":fs -> mapM_ (runFile 0 pModule) fs
+            fs -> mapM_ (runFile 2 pModule) fs
+
+
+
+
+
diff --git a/src/Transfer/ErrM.hs b/src/Transfer/ErrM.hs
new file mode 100644
index 000000000..1f3c566fd
--- /dev/null
+++ b/src/Transfer/ErrM.hs
@@ -0,0 +1,16 @@
+-- BNF Converter: Error Monad
+-- Copyright (C) 2004  Author:  Aarne Ranta
+
+-- This file comes with NO WARRANTY and may be used FOR ANY PURPOSE.
+module Transfer.ErrM where
+
+-- the Error monad: like Maybe type with error msgs
+
+data Err a = Ok a | Bad String
+  deriving (Read, Show, Eq)
+
+instance Monad Err where
+  return      = Ok
+  fail        = Bad
+  Ok a  >>= f = f a
+  Bad s >>= f = Bad s
diff --git a/src/Transfer/Interpreter.hs b/src/Transfer/Interpreter.hs
new file mode 100644
index 000000000..926b7bd3a
--- /dev/null
+++ b/src/Transfer/Interpreter.hs
@@ -0,0 +1,240 @@
+module Transfer.Interpreter where
+
+import Transfer.Core.Abs
+import Transfer.Core.Print
+
+import Control.Monad
+import Data.List
+import Data.Maybe
+
+import Debug.Trace
+
+data Value = VStr String
+           | VInt Integer
+           | VDbl Double
+           | VType
+           | VRec [(CIdent,Value)]
+           | VClos Env Exp
+           | VCons CIdent [Value]
+           | VPrim (Value -> Value)
+           | VMeta Integer
+  deriving (Show)
+
+instance Show (a -> b) where
+    show _ = "<<function>>"
+
+--
+-- * Environment
+--
+
+newtype Env = Env [(CIdent,Value)]
+    deriving Show
+
+mkEnv :: [(CIdent,Value)] -> Env
+mkEnv = Env
+
+addToEnv :: [(CIdent,Value)] -> Env -> Env
+addToEnv bs (Env e) = Env (bs ++ e)
+
+lookupEnv :: Env -> CIdent -> Value
+lookupEnv (Env e) id = 
+    case lookup id e of
+        Just x -> x
+        Nothing -> error $ "Variable " ++ printTree id ++ " not in environment."
+                           ++ " Environment contains: " ++ show (map (printTree . fst) e)
+
+prEnv :: Env -> String
+prEnv (Env e) = unlines [ printTree id ++ ": " ++ printValue v | (id,v) <- e ]
+
+seqEnv :: Env -> Env
+seqEnv (Env e) = Env $! deepSeqList [ fst p `seq` p | p <- e ]
+
+-- | The built-in types and functions.
+builtin :: Env
+builtin = 
+    mkEnv [(CIdent "Integer",VType),
+           (CIdent "Double",VType),
+           (CIdent "String",VType),
+           mkIntUn  "neg"  negate  toInt,
+           mkIntBin "add"  (+)     toInt,
+           mkIntBin "sub"  (-)     toInt,
+           mkIntBin "mul"  (*)     toInt,
+           mkIntBin "div"  div     toInt,
+           mkIntBin "mod"  mod     toInt,
+           mkIntBin "eq"   (==)    toBool,
+           mkIntBin "cmp"  compare toOrd,
+           mkIntUn  "show" show    toStr,
+           mkDblUn  "neg"  negate  toDbl,
+           mkDblBin "add"  (+)     toDbl,
+           mkDblBin "sub"  (-)     toDbl,
+           mkDblBin "mul"  (*)     toDbl,
+           mkDblBin "div"  (/)     toDbl,
+           mkDblBin "mod"  (\_ _ -> 0.0) toDbl,
+           mkDblBin "eq"   (==)    toBool,
+           mkDblBin "cmp"  compare toOrd,
+           mkDblUn  "show" show    toStr,
+           mkStrBin "add"  (++)    toStr,
+           mkStrBin "eq"   (==)    toBool,
+           mkStrBin "cmp"  compare toOrd,
+           mkStrUn  "show" show    toStr
+          ]
+  where 
+  toInt i  = VInt i
+  toDbl i  = VDbl i
+  toBool b = VCons (CIdent (show b)) []
+  toOrd o  = VCons (CIdent (show o)) []
+  toStr s  = VStr s
+  mkUn t a x f g = let c = CIdent ("prim_" ++ x ++ "_" ++ t)
+                   in (c, VPrim (\n -> a f g n))
+  mkBin t a x f g = let c = CIdent ("prim_" ++ x ++ "_" ++ t)
+                    in (c, VPrim (\n -> VPrim (\m -> a f g n m )))
+  mkIntUn = mkUn "Integer" $ \ f g x -> 
+                     case x of
+                         VInt n -> g (f n)
+                         _ -> error $ printValue x ++ " is not an integer"
+  mkIntBin = mkBin "Integer" $ \ f g x y -> 
+                     case (x,y) of
+                         (VInt n,VInt m) -> g (f n m)
+                         _ -> error $ printValue x ++ " and " ++ printValue y 
+                                      ++ " are not both integers"
+  mkDblUn = mkUn "Double" $ \ f g x -> 
+                     case x of
+                         VDbl n -> g (f n)
+                         _ -> error $ printValue x ++ " is not a double"
+  mkDblBin = mkBin "Double" $ \ f g x y -> 
+                     case (x,y) of
+                         (VDbl n,VDbl m) -> g (f n m)
+                         _ -> error $ printValue x ++ " and " ++ printValue y 
+                                      ++ " are not both doubles"
+  mkStrUn = mkUn "String" $ \ f g x -> 
+                     case x of
+                         VStr n -> g (f n)
+                         _ -> error $ printValue x ++ " is not a string"
+  mkStrBin = mkBin "String" $ \ f g x y -> 
+                     case (x,y) of
+                         (VStr n,VStr m) -> g (f n m)
+                         _ -> error $ printValue x ++ " and " ++ printValue y 
+                                      ++ " are not both strings"
+
+addModuleEnv :: Env -> Module -> Env
+addModuleEnv env (Module ds) = 
+    let bs = [ (c,VCons c []) | DataDecl _ _ cs <- ds, ConsDecl c _ <- cs ] 
+             ++ [ (t,VCons t []) | DataDecl t _  _ <- ds ] 
+             ++ [ (x,eval env' e) | ValueDecl x e <- ds]
+        env' = addToEnv bs env
+     in env'
+
+--
+-- * Evaluation.
+--
+
+eval :: Env -> Exp -> Value
+eval env x = case x of
+  ELet defs exp2 -> 
+      let env' = [ (id, v) | LetDef id e <- defs, 
+                             let v = eval env' e] 
+                 `addToEnv` env
+       in eval (seqEnv env') exp2
+  ECase exp cases -> 
+      let v = eval env exp
+          r = case firstMatch env v cases of
+                  Nothing -> error $ "No pattern matched " ++ printValue v
+                  Just (e,env') -> eval env' e
+       in v `seq` r
+  EAbs _ _ -> VClos env x
+  EPi _ _ _  -> VClos env x
+  EApp exp1 exp2 -> 
+      let v1 = eval env exp1
+          v2 = eval env exp2
+       in case v1 of
+                  VClos env' (EAbs id e) -> eval (bind id v2 `addToEnv` env') e
+                  VPrim f -> f $! v2
+                  VCons c vs -> (VCons $! c) $! ((++) $! vs) $! [v2]
+                  _ -> error $ "Bad application (" ++ printValue v1
+                                ++ ") (" ++ printValue v2 ++ ")"
+  EProj exp id  -> let v = eval env exp
+                    in case v of
+                               VRec fs -> recLookup id fs
+                               _ -> error $ printValue v ++ " is not a record, "
+                                            ++ "cannot get field " ++ printTree id
+
+  ERecType fts -> VRec $! deepSeqList $! [v `seq` (f,v) | FieldType  f e <- fts,
+                                                          let v = eval env e]
+  ERec fvs     -> VRec $! deepSeqList $! [v `seq` (f,v) | FieldValue f e <- fvs,
+                                                          let v = eval env e]
+  EVar id  -> lookupEnv env id
+  EType  -> VType
+  EStr str  -> VStr str
+  EInteger n  -> VInt n
+  EDouble n  -> VDbl n
+  EMeta (TMeta t) -> VMeta (read $ drop 1 t)
+
+firstMatch :: Env -> Value -> [Case] -> Maybe (Exp,Env)
+firstMatch _ _ [] = Nothing
+firstMatch env v (Case p g e:cs) = 
+    case match p v of
+        Nothing -> firstMatch env v cs
+        Just bs -> let env' = bs `addToEnv` env
+                    in case eval env' g of
+                           VCons (CIdent "True")  [] -> Just (e,env')
+                           VCons (CIdent "False") [] -> firstMatch env v cs
+                           x -> error $ "Error in guard: " ++ printValue x 
+                                        ++ " is not a Bool"
+
+bind :: PatternVariable -> Value -> [(CIdent,Value)]
+bind (PVVar x) v = [(x,v)]
+bind PVWild _ = []
+
+match :: Pattern -> Value -> Maybe [(CIdent,Value)]
+match (PCons c' ps) (VCons c vs) 
+    | c == c' = if length vs == length ps 
+                 then concatM $ zipWith match ps vs
+                 else error $ "Wrong number of arguments to " ++ printTree c
+match (PVar x) v                   = Just (bind x v)
+match (PRec fps) (VRec fs) = concatM [ match p (recLookup f fs) | FieldPattern f p <- fps ]
+match (PInt i) (VInt i') | i == i' = Just []
+match (PStr s) (VStr s') | s == s' = Just []
+match (PInt i) (VInt i') | i == i' = Just []
+match _ _ = Nothing
+
+
+recLookup :: CIdent -> [(CIdent,Value)] -> Value
+recLookup l fs = 
+    case lookup l fs of
+        Just x -> x
+        Nothing -> error $ printValue (VRec fs) ++ " has no field " ++ printTree l
+
+--
+-- * Utilities
+--
+
+concatM :: Monad m => [m [a]] -> m [a]
+concatM = liftM concat . sequence
+
+-- | Force a list and its values.
+deepSeqList :: [a] -> [a]
+deepSeqList = foldr (\x xs -> x `seq` xs `seq` (x:xs)) []
+
+--
+-- * Convert values to expressions
+--
+
+valueToExp :: Value -> Exp
+valueToExp v = 
+    case v of
+           VStr s     -> EStr s
+           VInt i     -> EInteger i
+           VDbl i     -> EDouble i
+           VType      -> EType
+           VRec fs    -> ERec [ FieldValue f (valueToExp v) | (f,v) <- fs]
+           VClos env e  -> e
+           VCons c vs -> foldl EApp (EVar c) (map valueToExp vs)
+           VPrim _    -> EVar (CIdent "<<primitive>>") -- FIXME: what to return here?
+           VMeta n    -> EMeta $ TMeta $ "?" ++ show n
+
+--
+-- * Pretty printing of values
+--
+
+printValue :: Value -> String
+printValue v = printTree (valueToExp v)
diff --git a/src/Transfer/InterpreterAPI.hs b/src/Transfer/InterpreterAPI.hs
new file mode 100644
index 000000000..2fe04e8f3
--- /dev/null
+++ b/src/Transfer/InterpreterAPI.hs
@@ -0,0 +1,39 @@
+module Transfer.InterpreterAPI (Env, builtin,
+                                load, loadFile, 
+                                evaluateString, evaluateExp
+                               ) where
+
+import Transfer.Core.Abs
+import Transfer.Core.Lex
+import Transfer.Core.Par
+import Transfer.Core.Print
+import Transfer.Interpreter
+import Transfer.ErrM
+
+-- | Read a transfer module in core format from a string.
+load :: Monad m => 
+        String -- ^ Input source name, for error messages.
+     -> String -- ^ Module contents.
+     -> m Env
+load n s = case pModule (myLexer s) of
+              Bad e -> fail $ "Parse error in " ++ n ++ ": " ++ e
+              Ok  m -> return $ addModuleEnv builtin m
+
+-- | Read a transfer module in core format from a file.
+--   Fails in the IO monad if there is a problem loading the file.
+loadFile :: FilePath -> IO Env
+loadFile f = readFile f >>= load f
+
+-- | Read a transfer expression from a string and evaluate it.
+--   Returns the result as a string.
+evaluateString :: Monad m => Env -> String -> m String
+evaluateString env s = 
+    case pExp (myLexer s) of
+        Bad e -> fail $ "Parse error: " ++ e
+        Ok  e -> do
+                 let v = eval env e
+                 return $ printValue v
+
+-- | Evaluate an expression in the given environment.
+evaluateExp :: Env -> Exp -> Exp
+evaluateExp env exp = valueToExp $ eval env exp
diff --git a/src/Transfer/PathUtil.hs b/src/Transfer/PathUtil.hs
new file mode 100644
index 000000000..b344563c6
--- /dev/null
+++ b/src/Transfer/PathUtil.hs
@@ -0,0 +1,110 @@
+{-# OPTIONS_GHC -cpp #-}
+
+-----------------------------------------------------------------------------
+-- File name and directory utilities. Stolen from 
+-- ghc-6.4.1/ghc/compiler/main/DriverUtil.hs
+--
+-- (c) The University of Glasgow 2000
+--
+-----------------------------------------------------------------------------
+
+module Transfer.PathUtil (
+	Suffix, splitFilename, getFileSuffix,
+	splitFilename3, remove_suffix, split_longest_prefix,
+	replaceFilenameSuffix, directoryOf, filenameOf,
+	replaceFilenameDirectory, replaceFilename, remove_spaces, escapeSpaces,
+  ) where
+
+import Data.Char (isSpace)
+	
+type Suffix = String
+
+splitFilename :: String -> (String,Suffix)
+splitFilename f = split_longest_prefix f (=='.')
+
+getFileSuffix :: String -> Suffix
+getFileSuffix f = drop_longest_prefix f (=='.')
+
+-- "foo/bar/xyzzy.ext" -> ("foo/bar", "xyzzy.ext")
+splitFilenameDir :: String -> (String,String)
+splitFilenameDir str
+  = let (dir, rest) = split_longest_prefix str isPathSeparator
+  	real_dir | null dir  = "."
+		 | otherwise = dir
+    in  (real_dir, rest)
+
+-- "foo/bar/xyzzy.ext" -> ("foo/bar", "xyzzy", ".ext")
+splitFilename3 :: String -> (String,String,Suffix)
+splitFilename3 str
+   = let (dir, rest) = split_longest_prefix str isPathSeparator
+	 (name, ext) = splitFilename rest
+	 real_dir | null dir  = "."
+		  | otherwise = dir
+     in  (real_dir, name, ext)
+
+remove_suffix :: Char -> String -> Suffix
+remove_suffix c s
+  | null pre  = s
+  | otherwise = reverse pre
+  where (suf,pre) = break (==c) (reverse s)
+
+drop_longest_prefix :: String -> (Char -> Bool) -> String
+drop_longest_prefix s pred = reverse suf
+  where (suf,_pre) = break pred (reverse s)
+
+take_longest_prefix :: String -> (Char -> Bool) -> String
+take_longest_prefix s pred = reverse pre
+  where (_suf,pre) = break pred (reverse s)
+
+-- split a string at the last character where 'pred' is True,
+-- returning a pair of strings. The first component holds the string
+-- up (but not including) the last character for which 'pred' returned
+-- True, the second whatever comes after (but also not including the
+-- last character).
+--
+-- If 'pred' returns False for all characters in the string, the original
+-- string is returned in the second component (and the first one is just
+-- empty).
+split_longest_prefix :: String -> (Char -> Bool) -> (String,String)
+split_longest_prefix s pred
+  = case pre of
+	[]      -> ([], reverse suf)
+	(_:pre) -> (reverse pre, reverse suf)
+  where (suf,pre) = break pred (reverse s)
+
+replaceFilenameSuffix :: FilePath -> Suffix -> FilePath
+replaceFilenameSuffix s suf = remove_suffix '.' s ++ suf
+
+-- directoryOf strips the filename off the input string, returning
+-- the directory.
+directoryOf :: FilePath -> String
+directoryOf = fst . splitFilenameDir
+
+-- filenameOf strips the directory off the input string, returning
+-- the filename.
+filenameOf :: FilePath -> String
+filenameOf = snd . splitFilenameDir
+
+replaceFilenameDirectory :: FilePath -> String -> FilePath
+replaceFilenameDirectory s dir
+ = dir ++ '/':drop_longest_prefix s isPathSeparator
+
+replaceFilename :: FilePath -> String -> FilePath
+replaceFilename f n
+ = case directoryOf f of
+                      "" -> n
+                      d  -> d ++ '/' : n
+
+remove_spaces :: String -> String
+remove_spaces = reverse . dropWhile isSpace . reverse . dropWhile isSpace
+
+escapeSpaces :: String -> String
+escapeSpaces = foldr (\c s -> if isSpace c then '\\':c:s else c:s) ""
+
+isPathSeparator :: Char -> Bool
+isPathSeparator ch =
+#ifdef mingw32_TARGET_OS
+  ch == '/' || ch == '\\'
+#else
+  ch == '/'
+#endif
diff --git a/src/Transfer/Syntax/Abs.hs b/src/Transfer/Syntax/Abs.hs
new file mode 100644
index 000000000..0ccf9ab12
--- /dev/null
+++ b/src/Transfer/Syntax/Abs.hs
@@ -0,0 +1,485 @@
+{-# OPTIONS_GHC -fglasgow-exts #-}
+module Transfer.Syntax.Abs (Tree(..), Module, Import, Decl, ConsDecl, Guard, Pattern, CommaPattern, FieldPattern, Exp, VarOrWild, LetDef, Case, Bind, FieldType, FieldValue, Ident, composOp, composOpM, composOpM_, composOpMPlus, composOpMonoid, composOpFold, compos, johnMajorEq) where
+
+import Control.Monad (ap,MonadPlus,msum,mplus,mzero)
+import Control.Monad.Identity
+import Data.Monoid
+
+-- Haskell module generated by the BNF converter
+
+data Module_
+type Module = Tree Module_
+data Import_
+type Import = Tree Import_
+data Decl_
+type Decl = Tree Decl_
+data ConsDecl_
+type ConsDecl = Tree ConsDecl_
+data Guard_
+type Guard = Tree Guard_
+data Pattern_
+type Pattern = Tree Pattern_
+data CommaPattern_
+type CommaPattern = Tree CommaPattern_
+data FieldPattern_
+type FieldPattern = Tree FieldPattern_
+data Exp_
+type Exp = Tree Exp_
+data VarOrWild_
+type VarOrWild = Tree VarOrWild_
+data LetDef_
+type LetDef = Tree LetDef_
+data Case_
+type Case = Tree Case_
+data Bind_
+type Bind = Tree Bind_
+data FieldType_
+type FieldType = Tree FieldType_
+data FieldValue_
+type FieldValue = Tree FieldValue_
+data Ident_
+type Ident = Tree Ident_
+
+data Tree :: * -> * where
+    Module :: [Import] -> [Decl] -> Tree Module_
+    Import :: Ident -> Tree Import_
+    DataDecl :: Ident -> Exp -> [ConsDecl] -> Tree Decl_
+    TypeDecl :: Ident -> Exp -> Tree Decl_
+    ValueDecl :: Ident -> [Pattern] -> Guard -> Exp -> Tree Decl_
+    DeriveDecl :: Ident -> Ident -> Tree Decl_
+    ConsDecl :: Ident -> Exp -> Tree ConsDecl_
+    GuardExp :: Exp -> Tree Guard_
+    GuardNo :: Tree Guard_
+    POr :: Pattern -> Pattern -> Tree Pattern_
+    PListCons :: Pattern -> Pattern -> Tree Pattern_
+    PConsTop :: Ident -> Pattern -> [Pattern] -> Tree Pattern_
+    PCons :: Ident -> [Pattern] -> Tree Pattern_
+    PRec :: [FieldPattern] -> Tree Pattern_
+    PEmptyList :: Tree Pattern_
+    PList :: [CommaPattern] -> Tree Pattern_
+    PTuple :: CommaPattern -> [CommaPattern] -> Tree Pattern_
+    PStr :: String -> Tree Pattern_
+    PInt :: Integer -> Tree Pattern_
+    PVar :: Ident -> Tree Pattern_
+    PWild :: Tree Pattern_
+    CommaPattern :: Pattern -> Tree CommaPattern_
+    FieldPattern :: Ident -> Pattern -> Tree FieldPattern_
+    EPi :: VarOrWild -> Exp -> Exp -> Tree Exp_
+    EPiNoVar :: Exp -> Exp -> Tree Exp_
+    EAbs :: VarOrWild -> Exp -> Tree Exp_
+    ELet :: [LetDef] -> Exp -> Tree Exp_
+    ECase :: Exp -> [Case] -> Tree Exp_
+    EIf :: Exp -> Exp -> Exp -> Tree Exp_
+    EDo :: [Bind] -> Exp -> Tree Exp_
+    EBind :: Exp -> Exp -> Tree Exp_
+    EBindC :: Exp -> Exp -> Tree Exp_
+    EOr :: Exp -> Exp -> Tree Exp_
+    EAnd :: Exp -> Exp -> Tree Exp_
+    EEq :: Exp -> Exp -> Tree Exp_
+    ENe :: Exp -> Exp -> Tree Exp_
+    ELt :: Exp -> Exp -> Tree Exp_
+    ELe :: Exp -> Exp -> Tree Exp_
+    EGt :: Exp -> Exp -> Tree Exp_
+    EGe :: Exp -> Exp -> Tree Exp_
+    EListCons :: Exp -> Exp -> Tree Exp_
+    EAdd :: Exp -> Exp -> Tree Exp_
+    ESub :: Exp -> Exp -> Tree Exp_
+    EMul :: Exp -> Exp -> Tree Exp_
+    EDiv :: Exp -> Exp -> Tree Exp_
+    EMod :: Exp -> Exp -> Tree Exp_
+    ENeg :: Exp -> Tree Exp_
+    EApp :: Exp -> Exp -> Tree Exp_
+    EProj :: Exp -> Ident -> Tree Exp_
+    ERecType :: [FieldType] -> Tree Exp_
+    ERec :: [FieldValue] -> Tree Exp_
+    EEmptyList :: Tree Exp_
+    EList :: [Exp] -> Tree Exp_
+    ETuple :: Exp -> [Exp] -> Tree Exp_
+    EVar :: Ident -> Tree Exp_
+    EType :: Tree Exp_
+    EStr :: String -> Tree Exp_
+    EInteger :: Integer -> Tree Exp_
+    EDouble :: Double -> Tree Exp_
+    EMeta :: Tree Exp_
+    VVar :: Ident -> Tree VarOrWild_
+    VWild :: Tree VarOrWild_
+    LetDef :: Ident -> Exp -> Tree LetDef_
+    Case :: Pattern -> Guard -> Exp -> Tree Case_
+    BindVar :: VarOrWild -> Exp -> Tree Bind_
+    BindNoVar :: Exp -> Tree Bind_
+    FieldType :: Ident -> Exp -> Tree FieldType_
+    FieldValue :: Ident -> Exp -> Tree FieldValue_
+    Ident :: String -> Tree Ident_
+
+composOp :: (forall a. Tree a -> Tree a) -> Tree c -> Tree c
+composOp f = runIdentity . composOpM (Identity . f)
+
+composOpM :: Monad m => (forall a. Tree a -> m (Tree a)) -> Tree c -> m (Tree c)
+composOpM = compos return ap
+
+composOpM_ :: Monad m => (forall a. Tree a -> m ()) -> Tree c -> m ()
+composOpM_ = composOpFold (return ()) (>>)
+
+composOpMPlus :: MonadPlus m => (forall a. Tree a -> m b) -> Tree c -> m b
+composOpMPlus = composOpFold mzero mplus
+
+composOpMonoid :: Monoid m => (forall a. Tree a -> m) -> Tree c -> m
+composOpMonoid = composOpFold mempty mappend
+
+newtype C b a = C { unC :: b }
+composOpFold :: b -> (b -> b -> b) -> (forall a. Tree a -> b) -> Tree c -> b
+composOpFold z c f = unC . compos (\_ -> C z) (\(C x) (C y) -> C (c x y)) (C . f)
+
+compos :: (forall a. a -> m a) 
+       -> (forall a b. m (a -> b) -> m a -> m b) 
+       -> (forall a. Tree a -> m (Tree a)) -> Tree c -> m (Tree c)
+compos r a f t = case t of
+    Module imports decls -> r Module `a` foldr (a . a (r (:)) . f) (r []) imports `a` foldr (a . a (r (:)) . f) (r []) decls
+    Import i -> r Import `a` f i
+    DataDecl i exp consdecls -> r DataDecl `a` f i `a` f exp `a` foldr (a . a (r (:)) . f) (r []) consdecls
+    TypeDecl i exp -> r TypeDecl `a` f i `a` f exp
+    ValueDecl i patterns guard exp -> r ValueDecl `a` f i `a` foldr (a . a (r (:)) . f) (r []) patterns `a` f guard `a` f exp
+    DeriveDecl i0 i1 -> r DeriveDecl `a` f i0 `a` f i1
+    ConsDecl i exp -> r ConsDecl `a` f i `a` f exp
+    GuardExp exp -> r GuardExp `a` f exp
+    POr pattern0 pattern1 -> r POr `a` f pattern0 `a` f pattern1
+    PListCons pattern0 pattern1 -> r PListCons `a` f pattern0 `a` f pattern1
+    PConsTop i pattern patterns -> r PConsTop `a` f i `a` f pattern `a` foldr (a . a (r (:)) . f) (r []) patterns
+    PCons i patterns -> r PCons `a` f i `a` foldr (a . a (r (:)) . f) (r []) patterns
+    PRec fieldpatterns -> r PRec `a` foldr (a . a (r (:)) . f) (r []) fieldpatterns
+    PList commapatterns -> r PList `a` foldr (a . a (r (:)) . f) (r []) commapatterns
+    PTuple commapattern commapatterns -> r PTuple `a` f commapattern `a` foldr (a . a (r (:)) . f) (r []) commapatterns
+    PVar i -> r PVar `a` f i
+    CommaPattern pattern -> r CommaPattern `a` f pattern
+    FieldPattern i pattern -> r FieldPattern `a` f i `a` f pattern
+    EPi varorwild exp0 exp1 -> r EPi `a` f varorwild `a` f exp0 `a` f exp1
+    EPiNoVar exp0 exp1 -> r EPiNoVar `a` f exp0 `a` f exp1
+    EAbs varorwild exp -> r EAbs `a` f varorwild `a` f exp
+    ELet letdefs exp -> r ELet `a` foldr (a . a (r (:)) . f) (r []) letdefs `a` f exp
+    ECase exp cases -> r ECase `a` f exp `a` foldr (a . a (r (:)) . f) (r []) cases
+    EIf exp0 exp1 exp2 -> r EIf `a` f exp0 `a` f exp1 `a` f exp2
+    EDo binds exp -> r EDo `a` foldr (a . a (r (:)) . f) (r []) binds `a` f exp
+    EBind exp0 exp1 -> r EBind `a` f exp0 `a` f exp1
+    EBindC exp0 exp1 -> r EBindC `a` f exp0 `a` f exp1
+    EOr exp0 exp1 -> r EOr `a` f exp0 `a` f exp1
+    EAnd exp0 exp1 -> r EAnd `a` f exp0 `a` f exp1
+    EEq exp0 exp1 -> r EEq `a` f exp0 `a` f exp1
+    ENe exp0 exp1 -> r ENe `a` f exp0 `a` f exp1
+    ELt exp0 exp1 -> r ELt `a` f exp0 `a` f exp1
+    ELe exp0 exp1 -> r ELe `a` f exp0 `a` f exp1
+    EGt exp0 exp1 -> r EGt `a` f exp0 `a` f exp1
+    EGe exp0 exp1 -> r EGe `a` f exp0 `a` f exp1
+    EListCons exp0 exp1 -> r EListCons `a` f exp0 `a` f exp1
+    EAdd exp0 exp1 -> r EAdd `a` f exp0 `a` f exp1
+    ESub exp0 exp1 -> r ESub `a` f exp0 `a` f exp1
+    EMul exp0 exp1 -> r EMul `a` f exp0 `a` f exp1
+    EDiv exp0 exp1 -> r EDiv `a` f exp0 `a` f exp1
+    EMod exp0 exp1 -> r EMod `a` f exp0 `a` f exp1
+    ENeg exp -> r ENeg `a` f exp
+    EApp exp0 exp1 -> r EApp `a` f exp0 `a` f exp1
+    EProj exp i -> r EProj `a` f exp `a` f i
+    ERecType fieldtypes -> r ERecType `a` foldr (a . a (r (:)) . f) (r []) fieldtypes
+    ERec fieldvalues -> r ERec `a` foldr (a . a (r (:)) . f) (r []) fieldvalues
+    EList exps -> r EList `a` foldr (a . a (r (:)) . f) (r []) exps
+    ETuple exp exps -> r ETuple `a` f exp `a` foldr (a . a (r (:)) . f) (r []) exps
+    EVar i -> r EVar `a` f i
+    VVar i -> r VVar `a` f i
+    LetDef i exp -> r LetDef `a` f i `a` f exp
+    Case pattern guard exp -> r Case `a` f pattern `a` f guard `a` f exp
+    BindVar varorwild exp -> r BindVar `a` f varorwild `a` f exp
+    BindNoVar exp -> r BindNoVar `a` f exp
+    FieldType i exp -> r FieldType `a` f i `a` f exp
+    FieldValue i exp -> r FieldValue `a` f i `a` f exp
+    _ -> r t
+
+instance Show (Tree c) where
+  showsPrec n t = case t of
+    Module imports decls -> opar n . showString "Module" . showChar ' ' . showsPrec 1 imports . showChar ' ' . showsPrec 1 decls . cpar n
+    Import i -> opar n . showString "Import" . showChar ' ' . showsPrec 1 i . cpar n
+    DataDecl i exp consdecls -> opar n . showString "DataDecl" . showChar ' ' . showsPrec 1 i . showChar ' ' . showsPrec 1 exp . showChar ' ' . showsPrec 1 consdecls . cpar n
+    TypeDecl i exp -> opar n . showString "TypeDecl" . showChar ' ' . showsPrec 1 i . showChar ' ' . showsPrec 1 exp . cpar n
+    ValueDecl i patterns guard exp -> opar n . showString "ValueDecl" . showChar ' ' . showsPrec 1 i . showChar ' ' . showsPrec 1 patterns . showChar ' ' . showsPrec 1 guard . showChar ' ' . showsPrec 1 exp . cpar n
+    DeriveDecl i0 i1 -> opar n . showString "DeriveDecl" . showChar ' ' . showsPrec 1 i0 . showChar ' ' . showsPrec 1 i1 . cpar n
+    ConsDecl i exp -> opar n . showString "ConsDecl" . showChar ' ' . showsPrec 1 i . showChar ' ' . showsPrec 1 exp . cpar n
+    GuardExp exp -> opar n . showString "GuardExp" . showChar ' ' . showsPrec 1 exp . cpar n
+    GuardNo -> showString "GuardNo"
+    POr pattern0 pattern1 -> opar n . showString "POr" . showChar ' ' . showsPrec 1 pattern0 . showChar ' ' . showsPrec 1 pattern1 . cpar n
+    PListCons pattern0 pattern1 -> opar n . showString "PListCons" . showChar ' ' . showsPrec 1 pattern0 . showChar ' ' . showsPrec 1 pattern1 . cpar n
+    PConsTop i pattern patterns -> opar n . showString "PConsTop" . showChar ' ' . showsPrec 1 i . showChar ' ' . showsPrec 1 pattern . showChar ' ' . showsPrec 1 patterns . cpar n
+    PCons i patterns -> opar n . showString "PCons" . showChar ' ' . showsPrec 1 i . showChar ' ' . showsPrec 1 patterns . cpar n
+    PRec fieldpatterns -> opar n . showString "PRec" . showChar ' ' . showsPrec 1 fieldpatterns . cpar n
+    PEmptyList -> showString "PEmptyList"
+    PList commapatterns -> opar n . showString "PList" . showChar ' ' . showsPrec 1 commapatterns . cpar n
+    PTuple commapattern commapatterns -> opar n . showString "PTuple" . showChar ' ' . showsPrec 1 commapattern . showChar ' ' . showsPrec 1 commapatterns . cpar n
+    PStr str -> opar n . showString "PStr" . showChar ' ' . showsPrec 1 str . cpar n
+    PInt n -> opar n . showString "PInt" . showChar ' ' . showsPrec 1 n . cpar n
+    PVar i -> opar n . showString "PVar" . showChar ' ' . showsPrec 1 i . cpar n
+    PWild -> showString "PWild"
+    CommaPattern pattern -> opar n . showString "CommaPattern" . showChar ' ' . showsPrec 1 pattern . cpar n
+    FieldPattern i pattern -> opar n . showString "FieldPattern" . showChar ' ' . showsPrec 1 i . showChar ' ' . showsPrec 1 pattern . cpar n
+    EPi varorwild exp0 exp1 -> opar n . showString "EPi" . showChar ' ' . showsPrec 1 varorwild . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EPiNoVar exp0 exp1 -> opar n . showString "EPiNoVar" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EAbs varorwild exp -> opar n . showString "EAbs" . showChar ' ' . showsPrec 1 varorwild . showChar ' ' . showsPrec 1 exp . cpar n
+    ELet letdefs exp -> opar n . showString "ELet" . showChar ' ' . showsPrec 1 letdefs . showChar ' ' . showsPrec 1 exp . cpar n
+    ECase exp cases -> opar n . showString "ECase" . showChar ' ' . showsPrec 1 exp . showChar ' ' . showsPrec 1 cases . cpar n
+    EIf exp0 exp1 exp2 -> opar n . showString "EIf" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . showChar ' ' . showsPrec 1 exp2 . cpar n
+    EDo binds exp -> opar n . showString "EDo" . showChar ' ' . showsPrec 1 binds . showChar ' ' . showsPrec 1 exp . cpar n
+    EBind exp0 exp1 -> opar n . showString "EBind" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EBindC exp0 exp1 -> opar n . showString "EBindC" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EOr exp0 exp1 -> opar n . showString "EOr" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EAnd exp0 exp1 -> opar n . showString "EAnd" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EEq exp0 exp1 -> opar n . showString "EEq" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    ENe exp0 exp1 -> opar n . showString "ENe" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    ELt exp0 exp1 -> opar n . showString "ELt" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    ELe exp0 exp1 -> opar n . showString "ELe" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EGt exp0 exp1 -> opar n . showString "EGt" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EGe exp0 exp1 -> opar n . showString "EGe" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EListCons exp0 exp1 -> opar n . showString "EListCons" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EAdd exp0 exp1 -> opar n . showString "EAdd" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    ESub exp0 exp1 -> opar n . showString "ESub" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EMul exp0 exp1 -> opar n . showString "EMul" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EDiv exp0 exp1 -> opar n . showString "EDiv" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EMod exp0 exp1 -> opar n . showString "EMod" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    ENeg exp -> opar n . showString "ENeg" . showChar ' ' . showsPrec 1 exp . cpar n
+    EApp exp0 exp1 -> opar n . showString "EApp" . showChar ' ' . showsPrec 1 exp0 . showChar ' ' . showsPrec 1 exp1 . cpar n
+    EProj exp i -> opar n . showString "EProj" . showChar ' ' . showsPrec 1 exp . showChar ' ' . showsPrec 1 i . cpar n
+    ERecType fieldtypes -> opar n . showString "ERecType" . showChar ' ' . showsPrec 1 fieldtypes . cpar n
+    ERec fieldvalues -> opar n . showString "ERec" . showChar ' ' . showsPrec 1 fieldvalues . cpar n
+    EEmptyList -> showString "EEmptyList"
+    EList exps -> opar n . showString "EList" . showChar ' ' . showsPrec 1 exps . cpar n
+    ETuple exp exps -> opar n . showString "ETuple" . showChar ' ' . showsPrec 1 exp . showChar ' ' . showsPrec 1 exps . cpar n
+    EVar i -> opar n . showString "EVar" . showChar ' ' . showsPrec 1 i . cpar n
+    EType -> showString "EType"
+    EStr str -> opar n . showString "EStr" . showChar ' ' . showsPrec 1 str . cpar n
+    EInteger n -> opar n . showString "EInteger" . showChar ' ' . showsPrec 1 n . cpar n
+    EDouble d -> opar n . showString "EDouble" . showChar ' ' . showsPrec 1 d . cpar n
+    EMeta -> showString "EMeta"
+    VVar i -> opar n . showString "VVar" . showChar ' ' . showsPrec 1 i . cpar n
+    VWild -> showString "VWild"
+    LetDef i exp -> opar n . showString "LetDef" . showChar ' ' . showsPrec 1 i . showChar ' ' . showsPrec 1 exp . cpar n
+    Case pattern guard exp -> opar n . showString "Case" . showChar ' ' . showsPrec 1 pattern . showChar ' ' . showsPrec 1 guard . showChar ' ' . showsPrec 1 exp . cpar n
+    BindVar varorwild exp -> opar n . showString "BindVar" . showChar ' ' . showsPrec 1 varorwild . showChar ' ' . showsPrec 1 exp . cpar n
+    BindNoVar exp -> opar n . showString "BindNoVar" . showChar ' ' . showsPrec 1 exp . cpar n
+    FieldType i exp -> opar n . showString "FieldType" . showChar ' ' . showsPrec 1 i . showChar ' ' . showsPrec 1 exp . cpar n
+    FieldValue i exp -> opar n . showString "FieldValue" . showChar ' ' . showsPrec 1 i . showChar ' ' . showsPrec 1 exp . cpar n
+    Ident str -> opar n . showString "Ident" . showChar ' ' . showsPrec 1 str . cpar n
+   where opar n = if n > 0 then showChar '(' else id
+         cpar n = if n > 0 then showChar ')' else id
+
+instance Eq (Tree c) where (==) = johnMajorEq
+
+johnMajorEq :: Tree a -> Tree b -> Bool
+johnMajorEq (Module imports decls) (Module imports_ decls_) = imports == imports_ && decls == decls_
+johnMajorEq (Import i) (Import i_) = i == i_
+johnMajorEq (DataDecl i exp consdecls) (DataDecl i_ exp_ consdecls_) = i == i_ && exp == exp_ && consdecls == consdecls_
+johnMajorEq (TypeDecl i exp) (TypeDecl i_ exp_) = i == i_ && exp == exp_
+johnMajorEq (ValueDecl i patterns guard exp) (ValueDecl i_ patterns_ guard_ exp_) = i == i_ && patterns == patterns_ && guard == guard_ && exp == exp_
+johnMajorEq (DeriveDecl i0 i1) (DeriveDecl i0_ i1_) = i0 == i0_ && i1 == i1_
+johnMajorEq (ConsDecl i exp) (ConsDecl i_ exp_) = i == i_ && exp == exp_
+johnMajorEq (GuardExp exp) (GuardExp exp_) = exp == exp_
+johnMajorEq GuardNo GuardNo = True
+johnMajorEq (POr pattern0 pattern1) (POr pattern0_ pattern1_) = pattern0 == pattern0_ && pattern1 == pattern1_
+johnMajorEq (PListCons pattern0 pattern1) (PListCons pattern0_ pattern1_) = pattern0 == pattern0_ && pattern1 == pattern1_
+johnMajorEq (PConsTop i pattern patterns) (PConsTop i_ pattern_ patterns_) = i == i_ && pattern == pattern_ && patterns == patterns_
+johnMajorEq (PCons i patterns) (PCons i_ patterns_) = i == i_ && patterns == patterns_
+johnMajorEq (PRec fieldpatterns) (PRec fieldpatterns_) = fieldpatterns == fieldpatterns_
+johnMajorEq PEmptyList PEmptyList = True
+johnMajorEq (PList commapatterns) (PList commapatterns_) = commapatterns == commapatterns_
+johnMajorEq (PTuple commapattern commapatterns) (PTuple commapattern_ commapatterns_) = commapattern == commapattern_ && commapatterns == commapatterns_
+johnMajorEq (PStr str) (PStr str_) = str == str_
+johnMajorEq (PInt n) (PInt n_) = n == n_
+johnMajorEq (PVar i) (PVar i_) = i == i_
+johnMajorEq PWild PWild = True
+johnMajorEq (CommaPattern pattern) (CommaPattern pattern_) = pattern == pattern_
+johnMajorEq (FieldPattern i pattern) (FieldPattern i_ pattern_) = i == i_ && pattern == pattern_
+johnMajorEq (EPi varorwild exp0 exp1) (EPi varorwild_ exp0_ exp1_) = varorwild == varorwild_ && exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EPiNoVar exp0 exp1) (EPiNoVar exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EAbs varorwild exp) (EAbs varorwild_ exp_) = varorwild == varorwild_ && exp == exp_
+johnMajorEq (ELet letdefs exp) (ELet letdefs_ exp_) = letdefs == letdefs_ && exp == exp_
+johnMajorEq (ECase exp cases) (ECase exp_ cases_) = exp == exp_ && cases == cases_
+johnMajorEq (EIf exp0 exp1 exp2) (EIf exp0_ exp1_ exp2_) = exp0 == exp0_ && exp1 == exp1_ && exp2 == exp2_
+johnMajorEq (EDo binds exp) (EDo binds_ exp_) = binds == binds_ && exp == exp_
+johnMajorEq (EBind exp0 exp1) (EBind exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EBindC exp0 exp1) (EBindC exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EOr exp0 exp1) (EOr exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EAnd exp0 exp1) (EAnd exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EEq exp0 exp1) (EEq exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (ENe exp0 exp1) (ENe exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (ELt exp0 exp1) (ELt exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (ELe exp0 exp1) (ELe exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EGt exp0 exp1) (EGt exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EGe exp0 exp1) (EGe exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EListCons exp0 exp1) (EListCons exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EAdd exp0 exp1) (EAdd exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (ESub exp0 exp1) (ESub exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EMul exp0 exp1) (EMul exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EDiv exp0 exp1) (EDiv exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EMod exp0 exp1) (EMod exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (ENeg exp) (ENeg exp_) = exp == exp_
+johnMajorEq (EApp exp0 exp1) (EApp exp0_ exp1_) = exp0 == exp0_ && exp1 == exp1_
+johnMajorEq (EProj exp i) (EProj exp_ i_) = exp == exp_ && i == i_
+johnMajorEq (ERecType fieldtypes) (ERecType fieldtypes_) = fieldtypes == fieldtypes_
+johnMajorEq (ERec fieldvalues) (ERec fieldvalues_) = fieldvalues == fieldvalues_
+johnMajorEq EEmptyList EEmptyList = True
+johnMajorEq (EList exps) (EList exps_) = exps == exps_
+johnMajorEq (ETuple exp exps) (ETuple exp_ exps_) = exp == exp_ && exps == exps_
+johnMajorEq (EVar i) (EVar i_) = i == i_
+johnMajorEq EType EType = True
+johnMajorEq (EStr str) (EStr str_) = str == str_
+johnMajorEq (EInteger n) (EInteger n_) = n == n_
+johnMajorEq (EDouble d) (EDouble d_) = d == d_
+johnMajorEq EMeta EMeta = True
+johnMajorEq (VVar i) (VVar i_) = i == i_
+johnMajorEq VWild VWild = True
+johnMajorEq (LetDef i exp) (LetDef i_ exp_) = i == i_ && exp == exp_
+johnMajorEq (Case pattern guard exp) (Case pattern_ guard_ exp_) = pattern == pattern_ && guard == guard_ && exp == exp_
+johnMajorEq (BindVar varorwild exp) (BindVar varorwild_ exp_) = varorwild == varorwild_ && exp == exp_
+johnMajorEq (BindNoVar exp) (BindNoVar exp_) = exp == exp_
+johnMajorEq (FieldType i exp) (FieldType i_ exp_) = i == i_ && exp == exp_
+johnMajorEq (FieldValue i exp) (FieldValue i_ exp_) = i == i_ && exp == exp_
+johnMajorEq (Ident str) (Ident str_) = str == str_
+johnMajorEq _ _ = False
+
+instance Ord (Tree c) where
+  compare x y = compare (index x) (index y) `mappend` compareSame x y
+index :: Tree c -> Int
+index (Module _ _) = 0
+index (Import _) = 1
+index (DataDecl _ _ _) = 2
+index (TypeDecl _ _) = 3
+index (ValueDecl _ _ _ _) = 4
+index (DeriveDecl _ _) = 5
+index (ConsDecl _ _) = 6
+index (GuardExp _) = 7
+index (GuardNo ) = 8
+index (POr _ _) = 9
+index (PListCons _ _) = 10
+index (PConsTop _ _ _) = 11
+index (PCons _ _) = 12
+index (PRec _) = 13
+index (PEmptyList ) = 14
+index (PList _) = 15
+index (PTuple _ _) = 16
+index (PStr _) = 17
+index (PInt _) = 18
+index (PVar _) = 19
+index (PWild ) = 20
+index (CommaPattern _) = 21
+index (FieldPattern _ _) = 22
+index (EPi _ _ _) = 23
+index (EPiNoVar _ _) = 24
+index (EAbs _ _) = 25
+index (ELet _ _) = 26
+index (ECase _ _) = 27
+index (EIf _ _ _) = 28
+index (EDo _ _) = 29
+index (EBind _ _) = 30
+index (EBindC _ _) = 31
+index (EOr _ _) = 32
+index (EAnd _ _) = 33
+index (EEq _ _) = 34
+index (ENe _ _) = 35
+index (ELt _ _) = 36
+index (ELe _ _) = 37
+index (EGt _ _) = 38
+index (EGe _ _) = 39
+index (EListCons _ _) = 40
+index (EAdd _ _) = 41
+index (ESub _ _) = 42
+index (EMul _ _) = 43
+index (EDiv _ _) = 44
+index (EMod _ _) = 45
+index (ENeg _) = 46
+index (EApp _ _) = 47
+index (EProj _ _) = 48
+index (ERecType _) = 49
+index (ERec _) = 50
+index (EEmptyList ) = 51
+index (EList _) = 52
+index (ETuple _ _) = 53
+index (EVar _) = 54
+index (EType ) = 55
+index (EStr _) = 56
+index (EInteger _) = 57
+index (EDouble _) = 58
+index (EMeta ) = 59
+index (VVar _) = 60
+index (VWild ) = 61
+index (LetDef _ _) = 62
+index (Case _ _ _) = 63
+index (BindVar _ _) = 64
+index (BindNoVar _) = 65
+index (FieldType _ _) = 66
+index (FieldValue _ _) = 67
+index (Ident _) = 68
+compareSame :: Tree c -> Tree c -> Ordering
+compareSame (Module imports decls) (Module imports_ decls_) = mappend (compare imports imports_) (compare decls decls_)
+compareSame (Import i) (Import i_) = compare i i_
+compareSame (DataDecl i exp consdecls) (DataDecl i_ exp_ consdecls_) = mappend (compare i i_) (mappend (compare exp exp_) (compare consdecls consdecls_))
+compareSame (TypeDecl i exp) (TypeDecl i_ exp_) = mappend (compare i i_) (compare exp exp_)
+compareSame (ValueDecl i patterns guard exp) (ValueDecl i_ patterns_ guard_ exp_) = mappend (compare i i_) (mappend (compare patterns patterns_) (mappend (compare guard guard_) (compare exp exp_)))
+compareSame (DeriveDecl i0 i1) (DeriveDecl i0_ i1_) = mappend (compare i0 i0_) (compare i1 i1_)
+compareSame (ConsDecl i exp) (ConsDecl i_ exp_) = mappend (compare i i_) (compare exp exp_)
+compareSame (GuardExp exp) (GuardExp exp_) = compare exp exp_
+compareSame GuardNo GuardNo = EQ
+compareSame (POr pattern0 pattern1) (POr pattern0_ pattern1_) = mappend (compare pattern0 pattern0_) (compare pattern1 pattern1_)
+compareSame (PListCons pattern0 pattern1) (PListCons pattern0_ pattern1_) = mappend (compare pattern0 pattern0_) (compare pattern1 pattern1_)
+compareSame (PConsTop i pattern patterns) (PConsTop i_ pattern_ patterns_) = mappend (compare i i_) (mappend (compare pattern pattern_) (compare patterns patterns_))
+compareSame (PCons i patterns) (PCons i_ patterns_) = mappend (compare i i_) (compare patterns patterns_)
+compareSame (PRec fieldpatterns) (PRec fieldpatterns_) = compare fieldpatterns fieldpatterns_
+compareSame PEmptyList PEmptyList = EQ
+compareSame (PList commapatterns) (PList commapatterns_) = compare commapatterns commapatterns_
+compareSame (PTuple commapattern commapatterns) (PTuple commapattern_ commapatterns_) = mappend (compare commapattern commapattern_) (compare commapatterns commapatterns_)
+compareSame (PStr str) (PStr str_) = compare str str_
+compareSame (PInt n) (PInt n_) = compare n n_
+compareSame (PVar i) (PVar i_) = compare i i_
+compareSame PWild PWild = EQ
+compareSame (CommaPattern pattern) (CommaPattern pattern_) = compare pattern pattern_
+compareSame (FieldPattern i pattern) (FieldPattern i_ pattern_) = mappend (compare i i_) (compare pattern pattern_)
+compareSame (EPi varorwild exp0 exp1) (EPi varorwild_ exp0_ exp1_) = mappend (compare varorwild varorwild_) (mappend (compare exp0 exp0_) (compare exp1 exp1_))
+compareSame (EPiNoVar exp0 exp1) (EPiNoVar exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EAbs varorwild exp) (EAbs varorwild_ exp_) = mappend (compare varorwild varorwild_) (compare exp exp_)
+compareSame (ELet letdefs exp) (ELet letdefs_ exp_) = mappend (compare letdefs letdefs_) (compare exp exp_)
+compareSame (ECase exp cases) (ECase exp_ cases_) = mappend (compare exp exp_) (compare cases cases_)
+compareSame (EIf exp0 exp1 exp2) (EIf exp0_ exp1_ exp2_) = mappend (compare exp0 exp0_) (mappend (compare exp1 exp1_) (compare exp2 exp2_))
+compareSame (EDo binds exp) (EDo binds_ exp_) = mappend (compare binds binds_) (compare exp exp_)
+compareSame (EBind exp0 exp1) (EBind exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EBindC exp0 exp1) (EBindC exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EOr exp0 exp1) (EOr exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EAnd exp0 exp1) (EAnd exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EEq exp0 exp1) (EEq exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (ENe exp0 exp1) (ENe exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (ELt exp0 exp1) (ELt exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (ELe exp0 exp1) (ELe exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EGt exp0 exp1) (EGt exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EGe exp0 exp1) (EGe exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EListCons exp0 exp1) (EListCons exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EAdd exp0 exp1) (EAdd exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (ESub exp0 exp1) (ESub exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EMul exp0 exp1) (EMul exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EDiv exp0 exp1) (EDiv exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EMod exp0 exp1) (EMod exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (ENeg exp) (ENeg exp_) = compare exp exp_
+compareSame (EApp exp0 exp1) (EApp exp0_ exp1_) = mappend (compare exp0 exp0_) (compare exp1 exp1_)
+compareSame (EProj exp i) (EProj exp_ i_) = mappend (compare exp exp_) (compare i i_)
+compareSame (ERecType fieldtypes) (ERecType fieldtypes_) = compare fieldtypes fieldtypes_
+compareSame (ERec fieldvalues) (ERec fieldvalues_) = compare fieldvalues fieldvalues_
+compareSame EEmptyList EEmptyList = EQ
+compareSame (EList exps) (EList exps_) = compare exps exps_
+compareSame (ETuple exp exps) (ETuple exp_ exps_) = mappend (compare exp exp_) (compare exps exps_)
+compareSame (EVar i) (EVar i_) = compare i i_
+compareSame EType EType = EQ
+compareSame (EStr str) (EStr str_) = compare str str_
+compareSame (EInteger n) (EInteger n_) = compare n n_
+compareSame (EDouble d) (EDouble d_) = compare d d_
+compareSame EMeta EMeta = EQ
+compareSame (VVar i) (VVar i_) = compare i i_
+compareSame VWild VWild = EQ
+compareSame (LetDef i exp) (LetDef i_ exp_) = mappend (compare i i_) (compare exp exp_)
+compareSame (Case pattern guard exp) (Case pattern_ guard_ exp_) = mappend (compare pattern pattern_) (mappend (compare guard guard_) (compare exp exp_))
+compareSame (BindVar varorwild exp) (BindVar varorwild_ exp_) = mappend (compare varorwild varorwild_) (compare exp exp_)
+compareSame (BindNoVar exp) (BindNoVar exp_) = compare exp exp_
+compareSame (FieldType i exp) (FieldType i_ exp_) = mappend (compare i i_) (compare exp exp_)
+compareSame (FieldValue i exp) (FieldValue i_ exp_) = mappend (compare i i_) (compare exp exp_)
+compareSame (Ident str) (Ident str_) = compare str str_
+compareSame x y = error "BNFC error:" compareSame
diff --git a/src/Transfer/Syntax/Doc.tex b/src/Transfer/Syntax/Doc.tex
new file mode 100644
index 000000000..603940459
--- /dev/null
+++ b/src/Transfer/Syntax/Doc.tex
@@ -0,0 +1,333 @@
+\batchmode
+%This Latex file is machine-generated by the BNF-converter
+
+\documentclass[a4paper,11pt]{article}
+\author{BNF-converter}
+\title{The Language Syntax}
+\setlength{\parindent}{0mm}
+\setlength{\parskip}{1mm}
+\begin{document}
+
+\maketitle
+
+\newcommand{\emptyP}{\mbox{$\epsilon$}}
+\newcommand{\terminal}[1]{\mbox{{\texttt {#1}}}}
+\newcommand{\nonterminal}[1]{\mbox{$\langle \mbox{{\sl #1 }} \! \rangle$}}
+\newcommand{\arrow}{\mbox{::=}}
+\newcommand{\delimit}{\mbox{$|$}}
+\newcommand{\reserved}[1]{\mbox{{\texttt {#1}}}}
+\newcommand{\literal}[1]{\mbox{{\texttt {#1}}}}
+\newcommand{\symb}[1]{\mbox{{\texttt {#1}}}}
+
+This document was automatically generated by the {\em BNF-Converter}. It was generated together with the lexer, the parser, and the abstract syntax module, which guarantees that the document matches with the implementation of the language (provided no hand-hacking has taken place).
+
+\section*{The lexical structure of Syntax}
+\subsection*{Identifiers}
+Identifiers \nonterminal{Ident} are unquoted strings beginning with a letter,
+followed by any combination of letters, digits, and the characters {\tt \_ '},
+reserved words excluded.
+
+
+\subsection*{Literals}
+String literals \nonterminal{String}\ have the form
+\terminal{"}$x$\terminal{"}, where $x$ is any sequence of any characters
+except \terminal{"}\ unless preceded by \verb6\6.
+
+
+Integer literals \nonterminal{Int}\ are nonempty sequences of digits.
+
+
+Double-precision float literals \nonterminal{Double}\ have the structure
+indicated by the regular expression $\nonterminal{digit}+ \mbox{{\it `.'}} \nonterminal{digit}+ (\mbox{{\it `e'}} \mbox{{\it `-'}}? \nonterminal{digit}+)?$ i.e.\
+two sequences of digits separated by a decimal point, optionally
+followed by an unsigned or negative exponent.
+
+
+
+
+\subsection*{Reserved words and symbols}
+The set of reserved words is the set of terminals appearing in the grammar. Those reserved words that consist of non-letter characters are called symbols, and they are treated in a different way from those that are similar to identifiers. The lexer follows rules familiar from languages like Haskell, C, and Java, including longest match and spacing conventions.
+
+The reserved words used in Syntax are the following: \\
+
+\begin{tabular}{lll}
+{\reserved{Type}} &{\reserved{case}} &{\reserved{data}} \\
+{\reserved{derive}} &{\reserved{do}} &{\reserved{else}} \\
+{\reserved{if}} &{\reserved{import}} &{\reserved{in}} \\
+{\reserved{let}} &{\reserved{of}} &{\reserved{rec}} \\
+{\reserved{sig}} &{\reserved{then}} &{\reserved{where}} \\
+\end{tabular}\\
+
+The symbols used in Syntax are the following: \\
+
+\begin{tabular}{lll}
+{\symb{;}} &{\symb{:}} &{\symb{\{}} \\
+{\symb{\}}} &{\symb{{$=$}}} &{\symb{{$|$}}} \\
+{\symb{{$|$}{$|$}}} &{\symb{::}} &{\symb{(}} \\
+{\symb{)}} &{\symb{[}} &{\symb{]}} \\
+{\symb{,}} &{\symb{\_}} &{\symb{{$-$}{$>$}}} \\
+{\symb{$\backslash$}} &{\symb{{$<$}{$-$}}} &{\symb{{$>$}{$>$}{$=$}}} \\
+{\symb{{$>$}{$>$}}} &{\symb{\&\&}} &{\symb{{$=$}{$=$}}} \\
+{\symb{/{$=$}}} &{\symb{{$<$}}} &{\symb{{$<$}{$=$}}} \\
+{\symb{{$>$}}} &{\symb{{$>$}{$=$}}} &{\symb{{$+$}}} \\
+{\symb{{$-$}}} &{\symb{*}} &{\symb{/}} \\
+{\symb{\%}} &{\symb{.}} &{\symb{?}} \\
+\end{tabular}\\
+
+\subsection*{Comments}
+Single-line comments begin with {\symb{{$-$}{$-$}}}. \\Multiple-line comments are  enclosed with {\symb{\{{$-$}}} and {\symb{{$-$}\}}}.
+
+\section*{The syntactic structure of Syntax}
+Non-terminals are enclosed between $\langle$ and $\rangle$. 
+The symbols  {\arrow}  (production),  {\delimit}  (union) 
+and {\emptyP} (empty rule) belong to the BNF notation. 
+All other symbols are terminals.\\
+
+\begin{tabular}{lll}
+{\nonterminal{Module}} & {\arrow}  &{\nonterminal{ListImport}} {\nonterminal{ListDecl}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Import}} & {\arrow}  &{\terminal{import}} {\nonterminal{Ident}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListImport}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{Import}} {\terminal{;}} {\nonterminal{ListImport}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Decl}} & {\arrow}  &{\terminal{data}} {\nonterminal{Ident}} {\terminal{:}} {\nonterminal{Exp}} {\terminal{where}} {\terminal{\{}} {\nonterminal{ListConsDecl}} {\terminal{\}}}  \\
+ & {\delimit}  &{\nonterminal{Ident}} {\terminal{:}} {\nonterminal{Exp}}  \\
+ & {\delimit}  &{\nonterminal{Ident}} {\nonterminal{ListPattern}} {\nonterminal{Guard}} {\terminal{{$=$}}} {\nonterminal{Exp}}  \\
+ & {\delimit}  &{\terminal{derive}} {\nonterminal{Ident}} {\nonterminal{Ident}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListDecl}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{Decl}} {\terminal{;}} {\nonterminal{ListDecl}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ConsDecl}} & {\arrow}  &{\nonterminal{Ident}} {\terminal{:}} {\nonterminal{Exp}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListConsDecl}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{ConsDecl}}  \\
+ & {\delimit}  &{\nonterminal{ConsDecl}} {\terminal{;}} {\nonterminal{ListConsDecl}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Guard}} & {\arrow}  &{\terminal{{$|$}}} {\nonterminal{Exp1}}  \\
+ & {\delimit}  &{\emptyP} \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Pattern}} & {\arrow}  &{\nonterminal{Pattern1}} {\terminal{{$|$}{$|$}}} {\nonterminal{Pattern}}  \\
+ & {\delimit}  &{\nonterminal{Pattern1}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Pattern1}} & {\arrow}  &{\nonterminal{Pattern2}} {\terminal{::}} {\nonterminal{Pattern1}}  \\
+ & {\delimit}  &{\nonterminal{Pattern2}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Pattern2}} & {\arrow}  &{\nonterminal{Ident}} {\nonterminal{Pattern3}} {\nonterminal{ListPattern}}  \\
+ & {\delimit}  &{\nonterminal{Pattern3}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Pattern3}} & {\arrow}  &{\terminal{rec}} {\terminal{\{}} {\nonterminal{ListFieldPattern}} {\terminal{\}}}  \\
+ & {\delimit}  &{\terminal{[}} {\terminal{]}}  \\
+ & {\delimit}  &{\terminal{[}} {\nonterminal{ListCommaPattern}} {\terminal{]}}  \\
+ & {\delimit}  &{\terminal{(}} {\nonterminal{CommaPattern}} {\terminal{,}} {\nonterminal{ListCommaPattern}} {\terminal{)}}  \\
+ & {\delimit}  &{\nonterminal{String}}  \\
+ & {\delimit}  &{\nonterminal{Integer}}  \\
+ & {\delimit}  &{\nonterminal{Ident}}  \\
+ & {\delimit}  &{\terminal{\_}}  \\
+ & {\delimit}  &{\terminal{(}} {\nonterminal{Pattern}} {\terminal{)}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{CommaPattern}} & {\arrow}  &{\nonterminal{Pattern}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListCommaPattern}} & {\arrow}  &{\nonterminal{CommaPattern}}  \\
+ & {\delimit}  &{\nonterminal{CommaPattern}} {\terminal{,}} {\nonterminal{ListCommaPattern}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListPattern}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{Pattern3}} {\nonterminal{ListPattern}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{FieldPattern}} & {\arrow}  &{\nonterminal{Ident}} {\terminal{{$=$}}} {\nonterminal{Pattern}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListFieldPattern}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{FieldPattern}}  \\
+ & {\delimit}  &{\nonterminal{FieldPattern}} {\terminal{;}} {\nonterminal{ListFieldPattern}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp}} & {\arrow}  &{\terminal{(}} {\nonterminal{VarOrWild}} {\terminal{:}} {\nonterminal{Exp}} {\terminal{)}} {\terminal{{$-$}{$>$}}} {\nonterminal{Exp}}  \\
+ & {\delimit}  &{\nonterminal{Exp1}} {\terminal{{$-$}{$>$}}} {\nonterminal{Exp}}  \\
+ & {\delimit}  &{\nonterminal{Exp1}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{VarOrWild}} & {\arrow}  &{\nonterminal{Ident}}  \\
+ & {\delimit}  &{\terminal{\_}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp1}} & {\arrow}  &{\terminal{$\backslash$}} {\nonterminal{VarOrWild}} {\terminal{{$-$}{$>$}}} {\nonterminal{Exp1}}  \\
+ & {\delimit}  &{\terminal{let}} {\terminal{\{}} {\nonterminal{ListLetDef}} {\terminal{\}}} {\terminal{in}} {\nonterminal{Exp1}}  \\
+ & {\delimit}  &{\terminal{case}} {\nonterminal{Exp}} {\terminal{of}} {\terminal{\{}} {\nonterminal{ListCase}} {\terminal{\}}}  \\
+ & {\delimit}  &{\terminal{if}} {\nonterminal{Exp}} {\terminal{then}} {\nonterminal{Exp}} {\terminal{else}} {\nonterminal{Exp1}}  \\
+ & {\delimit}  &{\terminal{do}} {\terminal{\{}} {\nonterminal{ListBind}} {\nonterminal{Exp}} {\terminal{\}}}  \\
+ & {\delimit}  &{\nonterminal{Exp2}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{LetDef}} & {\arrow}  &{\nonterminal{Ident}} {\terminal{{$=$}}} {\nonterminal{Exp}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListLetDef}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{LetDef}}  \\
+ & {\delimit}  &{\nonterminal{LetDef}} {\terminal{;}} {\nonterminal{ListLetDef}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Case}} & {\arrow}  &{\nonterminal{Pattern}} {\nonterminal{Guard}} {\terminal{{$-$}{$>$}}} {\nonterminal{Exp}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListCase}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{Case}}  \\
+ & {\delimit}  &{\nonterminal{Case}} {\terminal{;}} {\nonterminal{ListCase}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Bind}} & {\arrow}  &{\nonterminal{VarOrWild}} {\terminal{{$<$}{$-$}}} {\nonterminal{Exp}}  \\
+ & {\delimit}  &{\nonterminal{Exp}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListBind}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{Bind}} {\terminal{;}} {\nonterminal{ListBind}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp3}} & {\arrow}  &{\nonterminal{Exp3}} {\terminal{{$>$}{$>$}{$=$}}} {\nonterminal{Exp4}}  \\
+ & {\delimit}  &{\nonterminal{Exp3}} {\terminal{{$>$}{$>$}}} {\nonterminal{Exp4}}  \\
+ & {\delimit}  &{\nonterminal{Exp4}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp4}} & {\arrow}  &{\nonterminal{Exp5}} {\terminal{{$|$}{$|$}}} {\nonterminal{Exp4}}  \\
+ & {\delimit}  &{\nonterminal{Exp5}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp5}} & {\arrow}  &{\nonterminal{Exp6}} {\terminal{\&\&}} {\nonterminal{Exp5}}  \\
+ & {\delimit}  &{\nonterminal{Exp6}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp6}} & {\arrow}  &{\nonterminal{Exp7}} {\terminal{{$=$}{$=$}}} {\nonterminal{Exp7}}  \\
+ & {\delimit}  &{\nonterminal{Exp7}} {\terminal{/{$=$}}} {\nonterminal{Exp7}}  \\
+ & {\delimit}  &{\nonterminal{Exp7}} {\terminal{{$<$}}} {\nonterminal{Exp7}}  \\
+ & {\delimit}  &{\nonterminal{Exp7}} {\terminal{{$<$}{$=$}}} {\nonterminal{Exp7}}  \\
+ & {\delimit}  &{\nonterminal{Exp7}} {\terminal{{$>$}}} {\nonterminal{Exp7}}  \\
+ & {\delimit}  &{\nonterminal{Exp7}} {\terminal{{$>$}{$=$}}} {\nonterminal{Exp7}}  \\
+ & {\delimit}  &{\nonterminal{Exp7}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp7}} & {\arrow}  &{\nonterminal{Exp8}} {\terminal{::}} {\nonterminal{Exp7}}  \\
+ & {\delimit}  &{\nonterminal{Exp8}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp8}} & {\arrow}  &{\nonterminal{Exp8}} {\terminal{{$+$}}} {\nonterminal{Exp9}}  \\
+ & {\delimit}  &{\nonterminal{Exp8}} {\terminal{{$-$}}} {\nonterminal{Exp9}}  \\
+ & {\delimit}  &{\nonterminal{Exp9}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp9}} & {\arrow}  &{\nonterminal{Exp9}} {\terminal{*}} {\nonterminal{Exp10}}  \\
+ & {\delimit}  &{\nonterminal{Exp9}} {\terminal{/}} {\nonterminal{Exp10}}  \\
+ & {\delimit}  &{\nonterminal{Exp9}} {\terminal{\%}} {\nonterminal{Exp10}}  \\
+ & {\delimit}  &{\nonterminal{Exp10}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp10}} & {\arrow}  &{\terminal{{$-$}}} {\nonterminal{Exp10}}  \\
+ & {\delimit}  &{\nonterminal{Exp11}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp11}} & {\arrow}  &{\nonterminal{Exp11}} {\nonterminal{Exp12}}  \\
+ & {\delimit}  &{\nonterminal{Exp12}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp12}} & {\arrow}  &{\nonterminal{Exp12}} {\terminal{.}} {\nonterminal{Ident}}  \\
+ & {\delimit}  &{\nonterminal{Exp13}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp13}} & {\arrow}  &{\terminal{sig}} {\terminal{\{}} {\nonterminal{ListFieldType}} {\terminal{\}}}  \\
+ & {\delimit}  &{\terminal{rec}} {\terminal{\{}} {\nonterminal{ListFieldValue}} {\terminal{\}}}  \\
+ & {\delimit}  &{\terminal{[}} {\terminal{]}}  \\
+ & {\delimit}  &{\terminal{[}} {\nonterminal{ListExp}} {\terminal{]}}  \\
+ & {\delimit}  &{\terminal{(}} {\nonterminal{Exp}} {\terminal{,}} {\nonterminal{ListExp}} {\terminal{)}}  \\
+ & {\delimit}  &{\nonterminal{Ident}}  \\
+ & {\delimit}  &{\terminal{Type}}  \\
+ & {\delimit}  &{\nonterminal{String}}  \\
+ & {\delimit}  &{\nonterminal{Integer}}  \\
+ & {\delimit}  &{\nonterminal{Double}}  \\
+ & {\delimit}  &{\terminal{?}}  \\
+ & {\delimit}  &{\terminal{(}} {\nonterminal{Exp}} {\terminal{)}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{FieldType}} & {\arrow}  &{\nonterminal{Ident}} {\terminal{:}} {\nonterminal{Exp}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListFieldType}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{FieldType}}  \\
+ & {\delimit}  &{\nonterminal{FieldType}} {\terminal{;}} {\nonterminal{ListFieldType}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{FieldValue}} & {\arrow}  &{\nonterminal{Ident}} {\terminal{{$=$}}} {\nonterminal{Exp}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListFieldValue}} & {\arrow}  &{\emptyP} \\
+ & {\delimit}  &{\nonterminal{FieldValue}}  \\
+ & {\delimit}  &{\nonterminal{FieldValue}} {\terminal{;}} {\nonterminal{ListFieldValue}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{Exp2}} & {\arrow}  &{\nonterminal{Exp3}}  \\
+\end{tabular}\\
+
+\begin{tabular}{lll}
+{\nonterminal{ListExp}} & {\arrow}  &{\nonterminal{Exp}}  \\
+ & {\delimit}  &{\nonterminal{Exp}} {\terminal{,}} {\nonterminal{ListExp}}  \\
+\end{tabular}\\
+
+
+
+\end{document}
+
diff --git a/src/Transfer/Syntax/Layout.hs b/src/Transfer/Syntax/Layout.hs
new file mode 100644
index 000000000..de5c99870
--- /dev/null
+++ b/src/Transfer/Syntax/Layout.hs
@@ -0,0 +1,227 @@
+module Transfer.Syntax.Layout where
+
+import Transfer.Syntax.Lex
+
+
+import Data.Maybe (isNothing, fromJust)
+
+-- Generated by the BNF Converter
+
+-- local parameters
+
+topLayout = True
+layoutWords = ["let","where","of","rec","sig","do"]
+layoutStopWords = ["in"]
+
+-- layout separators
+
+layoutOpen  = "{"
+layoutClose = "}"
+layoutSep   = ";"
+
+-- | Replace layout syntax with explicit layout tokens.
+resolveLayout :: Bool    -- ^ Whether to use top-level layout.
+              -> [Token] -> [Token]
+resolveLayout tp = res Nothing [if tl then Implicit 1 else Explicit]
+  where
+  -- Do top-level layout if the function parameter and the grammar say so.
+  tl = tp && topLayout
+
+  res :: Maybe Token -- ^ The previous token, if any.
+      -> [Block] -- ^ A stack of layout blocks.
+      -> [Token] -> [Token]
+
+  -- The stack should never be empty.
+  res _ [] ts = error $ "Layout error: stack empty. Tokens: " ++ show ts
+
+  res _ st (t0:ts)
+    -- We found an open brace in the input,
+    -- put an explicit layout block on the stack.
+    -- This is done even if there was no layout word,
+    -- to keep opening and closing braces.
+    | isLayoutOpen t0 = moveAlong (Explicit:st) [t0] ts
+
+  res _ st (t0:ts)
+    -- Start a new layout block if the first token is a layout word
+    | isLayout t0 =
+        case ts of
+            -- Explicit layout, just move on. The case above
+            -- will push an explicit layout block.
+            t1:_ | isLayoutOpen t1 -> moveAlong st [t0] ts
+                     -- at end of file, the start column doesn't matter
+            _ -> let col = if null ts then column t0 else column (head ts)
+                     -- insert an open brace after the layout word
+                     b:ts' = addToken (nextPos t0) layoutOpen ts
+                     -- save the start column
+                     st' = Implicit col:st 
+                  in moveAlong st' [t0,b] ts'
+
+    -- If we encounter a closing brace, exit the first explicit layout block.
+    | isLayoutClose t0 = 
+          let st' = drop 1 (dropWhile isImplicit st)
+           in if null st' 
+                 then error $ "Layout error: Found " ++ layoutClose ++ " at (" 
+                              ++ show (line t0) ++ "," ++ show (column t0) 
+                              ++ ") without an explicit layout block."
+                 else moveAlong st' [t0] ts
+
+  -- We are in an implicit layout block
+  res pt st@(Implicit n:ns) (t0:ts)
+
+      -- End of implicit block by a layout stop word
+    | isStop t0 = 
+           -- Exit the current block and all implicit blocks 
+           -- more indented than the current token
+       let (ebs,ns') = span (`moreIndent` column t0) ns
+           moreIndent (Implicit x) y = x > y
+           moreIndent Explicit _ = False
+           -- the number of blocks exited
+           b = 1 + length ebs
+           bs = replicate b layoutClose
+           -- Insert closing braces after the previous token.
+           (ts1,ts2) = splitAt (1+b) $ addTokens (afterPrev pt) bs (t0:ts)
+        in moveAlong ns' ts1 ts2
+
+    -- End of an implicit layout block
+    | newLine && column t0 < n  = 
+           -- Insert a closing brace after the previous token.
+       let b:t0':ts' = addToken (afterPrev pt) layoutClose (t0:ts)
+           -- Repeat, with the current block removed from the stack
+        in moveAlong ns [b] (t0':ts')
+
+    -- Encounted a new line in an implicit layout block.
+    | newLine && column t0 == n = 
+       -- Insert a semicolon after the previous token.
+       -- unless we are the beginning of the file,
+       -- or the previous token is a semicolon or open brace.
+       if isNothing pt || isTokenIn [layoutSep,layoutOpen] (fromJust pt) 
+          then moveAlong st [t0] ts
+          else let b:t0':ts' = addToken (afterPrev pt) layoutSep (t0:ts)
+                in moveAlong st [b,t0'] ts'
+   where newLine = case pt of
+                           Nothing -> True
+                           Just t  -> line t /= line t0
+
+  -- Nothing to see here, move along.
+  res _ st (t:ts)  = moveAlong st [t] ts
+
+  -- At EOF: skip explicit blocks.
+  res (Just t) (Explicit:bs) [] | null bs = []
+                                | otherwise = res (Just t) bs []
+
+  -- If we are using top-level layout, insert a semicolon after
+  -- the last token, if there isn't one already
+  res (Just t) [Implicit n] []
+      | isTokenIn [layoutSep] t = []
+      | otherwise = addToken (nextPos t) layoutSep []
+
+  -- At EOF in an implicit, non-top-level block: close the block
+  res (Just t) (Implicit n:bs) [] =
+     let c = addToken (nextPos t) layoutClose []
+      in moveAlong bs c []
+
+  -- This should only happen if the input is empty.
+  res Nothing st [] = []
+
+  -- | Move on to the next token.
+  moveAlong :: [Block] -- ^ The layout stack.
+            -> [Token] -- ^ Any tokens just processed.
+            -> [Token] -- ^ the rest of the tokens.
+            -> [Token]
+  moveAlong st [] ts = error $ "Layout error: moveAlong got [] as old tokens"
+  moveAlong st ot ts = ot ++ res (Just $ last ot) st ts
+
+data Block = Implicit Int -- ^ An implicit layout block with its start column.
+           | Explicit 
+             deriving Show
+
+type Position = Posn
+
+-- | Check if s block is implicit.
+isImplicit :: Block -> Bool
+isImplicit (Implicit _) = True
+isImplicit _ = False
+
+-- | Insert a number of tokens at the begninning of a list of tokens.
+addTokens :: Position -- ^ Position of the first new token.
+          -> [String] -- ^ Token symbols.
+          -> [Token]  -- ^ The rest of the tokens. These will have their
+                      --   positions updated to make room for the new tokens .
+          -> [Token]                       
+addTokens p ss ts = foldr (addToken p) ts ss
+
+-- | Insert a new symbol token at the begninning of a list of tokens.
+addToken :: Position -- ^ Position of the new token.
+         -> String   -- ^ Symbol in the new token.
+         -> [Token]  -- ^ The rest of the tokens. These will have their
+                     --   positions updated to make room for the new token.
+         -> [Token]
+addToken p s ts = sToken p s : map (incrGlobal p (length s)) ts
+
+-- | Get the position immediately to the right of the given token.
+--   If no token is given, gets the first position in the file.
+afterPrev :: Maybe Token -> Position
+afterPrev = maybe (Pn 0 1 1) nextPos
+
+-- | Get the position immediately to the right of the given token.
+nextPos :: Token -> Position 
+nextPos t = Pn (g + s) l (c + s + 1) 
+  where Pn g l c = position t
+        s = tokenLength t
+
+-- | Add to the global and column positions of a token.
+--   The column position is only changed if the token is on
+--   the same line as the given position.
+incrGlobal :: Position -- ^ If the token is on the same line
+                       --   as this position, update the column position.
+           -> Int      -- ^ Number of characters to add to the position.
+           -> Token -> Token
+incrGlobal (Pn _ l0 _) i (PT (Pn g l c) t) =
+  if l /= l0 then PT (Pn (g + i) l c) t
+             else PT (Pn (g + i) l (c + i)) t
+incrGlobal _ _ p = error $ "cannot add token at " ++ show p
+
+-- | Create a symbol token.
+sToken :: Position -> String -> Token
+sToken p s = PT p (TS s) -- reserved word or symbol
+
+-- | Get the position of a token.
+position :: Token -> Position
+position t = case t of
+  PT p _ -> p
+  Err p -> p
+
+-- | Get the line number of a token.
+line :: Token -> Int
+line t = case position t of Pn _ l _ -> l
+
+-- | Get the column number of a token.
+column :: Token -> Int
+column t = case position t of Pn _ _ c -> c
+
+-- | Check if a token is one of the given symbols.
+isTokenIn :: [String] -> Token -> Bool
+isTokenIn ts t = case t of
+  PT _ (TS r) | elem r ts -> True
+  _ -> False
+
+-- | Check if a word is a layout start token.
+isLayout :: Token -> Bool
+isLayout = isTokenIn layoutWords
+
+-- | Check if a token is a layout stop token.
+isStop :: Token -> Bool
+isStop = isTokenIn layoutStopWords
+
+-- | Check if a token is the layout open token.
+isLayoutOpen :: Token -> Bool
+isLayoutOpen = isTokenIn [layoutOpen]
+
+-- | Check if a token is the layout close token.
+isLayoutClose :: Token -> Bool
+isLayoutClose = isTokenIn [layoutClose]
+
+-- | Get the number of characters in the token.
+tokenLength :: Token -> Int
+tokenLength t = length $ prToken t
+
diff --git a/src/Transfer/Syntax/Lex.hs b/src/Transfer/Syntax/Lex.hs
new file mode 100644
index 000000000..83c9e1a12
--- /dev/null
+++ b/src/Transfer/Syntax/Lex.hs
@@ -0,0 +1,337 @@
+{-# OPTIONS -fglasgow-exts -cpp #-}
+{-# LINE 3 "Transfer/Syntax/Lex.x" #-}
+{-# OPTIONS -fno-warn-incomplete-patterns #-}
+module Transfer.Syntax.Lex where
+
+
+
+#if __GLASGOW_HASKELL__ >= 603
+#include "ghcconfig.h"
+#else
+#include "config.h"
+#endif
+#if __GLASGOW_HASKELL__ >= 503
+import Data.Array
+import Data.Char (ord)
+import Data.Array.Base (unsafeAt)
+#else
+import Array
+import Char (ord)
+#endif
+#if __GLASGOW_HASKELL__ >= 503
+import GHC.Exts
+#else
+import GlaExts
+#endif
+alex_base :: AlexAddr
+alex_base = AlexA# "\x01\x00\x00\x00\x15\x00\x00\x00\x39\x00\x00\x00\x3a\x00\x00\x00\x18\x00\x00\x00\x19\x00\x00\x00\x1a\x00\x00\x00\x00\x00\x00\x00\x44\x00\x00\x00\x45\x00\x00\x00\x1b\x00\x00\x00\x1c\x00\x00\x00\x1d\x00\x00\x00\x42\x00\x00\x00\x00\x00\x00\x00\xd4\xff\xff\xff\x17\x00\x00\x00\x26\x00\x00\x00\x1e\x00\x00\x00\x27\x00\x00\x00\x29\x00\x00\x00\x2a\x00\x00\x00\x2c\x00\x00\x00\x9c\x00\x00\x00\x00\x00\x00\x00\x17\x01\x00\x00\xd5\x00\x00\x00\xf2\x00\x00\x00\x6c\x01\x00\x00\x1a\x01\x00\x00\x76\x01\x00\x00\x80\x01\x00\x00\x8d\x01\x00\x00"#
+
+alex_table :: AlexAddr
+alex_table = AlexA# 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+
+alex_check :: AlexAddr
+alex_check = AlexA# "\xff\xff\x00\x00\x01\x00\x02\x00\x03\x00\x04\x00\x05\x00\x06\x00\x07\x00\x08\x00\x09\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x0e\x00\x0f\x00\x10\x00\x11\x00\x12\x00\x13\x00\x14\x00\x15\x00\x16\x00\x17\x00\x18\x00\x19\x00\x1a\x00\x1b\x00\x1c\x00\x1d\x00\x1e\x00\x1f\x00\x20\x00\x21\x00\x22\x00\x23\x00\x24\x00\x25\x00\x26\x00\x27\x00\x28\x00\x29\x00\x2a\x00\x2b\x00\x2c\x00\x2d\x00\x2e\x00\x2f\x00\x30\x00\x31\x00\x32\x00\x33\x00\x34\x00\x35\x00\x36\x00\x37\x00\x38\x00\x39\x00\x3a\x00\x3b\x00\x3c\x00\x3d\x00\x3e\x00\x3f\x00\x40\x00\x2d\x00\x0a\x00\x0a\x00\x2d\x00\x2d\x00\x2d\x00\x2d\x00\x2d\x00\x2d\x00\x09\x00\x0a\x00\x0b\x00\x0c\x00\x0d\x00\x7c\x00\x3a\x00\x26\x00\x2d\x00\xff\xff\xff\xff\xff\xff\x3e\x00\xff\xff\xff\xff\xff\xff\x3d\x00\x5b\x00\x5c\x00\x5d\x00\x5e\x00\x5f\x00\x60\x00\x20\x00\x3d\x00\x3d\x00\x3e\x00\x3d\x00\x3d\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x2d\x00\x2d\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x7b\x00\x7c\x00\x7d\x00\x7e\x00\x7f\x00\x80\x00\x81\x00\x82\x00\x83\x00\x84\x00\x85\x00\x86\x00\x87\x00\x88\x00\x89\x00\x8a\x00\x8b\x00\x8c\x00\x8d\x00\x8e\x00\x8f\x00\x90\x00\x91\x00\x92\x00\x93\x00\x94\x00\x95\x00\x96\x00\x97\x00\x98\x00\x99\x00\x9a\x00\x9b\x00\x9c\x00\x9d\x00\x9e\x00\x9f\x00\xa0\x00\xa1\x00\xa2\x00\xa3\x00\xa4\x00\xa5\x00\xa6\x00\xa7\x00\xa8\x00\xa9\x00\xaa\x00\xab\x00\xac\x00\xad\x00\xae\x00\xaf\x00\xb0\x00\xb1\x00\xb2\x00\xb3\x00\xb4\x00\xb5\x00\xb6\x00\xb7\x00\xb8\x00\xb9\x00\xba\x00\xbb\x00\xbc\x00\xbd\x00\xbe\x00\xbf\x00\x7d\x00\x7d\x00\x27\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x30\x00\x31\x00\x32\x00\x33\x00\x34\x00\x35\x00\x36\x00\x37\x00\x38\x00\x39\x00\xff\xff\xff\xff\xd7\x00\xff\xff\xff\xff\xff\xff\xff\xff\x41\x00\x42\x00\x43\x00\x44\x00\x45\x00\x46\x00\x47\x00\x48\x00\x49\x00\x4a\x00\x4b\x00\x4c\x00\x4d\x00\x4e\x00\x4f\x00\x50\x00\x51\x00\x52\x00\x53\x00\x54\x00\x55\x00\x56\x00\x57\x00\x58\x00\x59\x00\x5a\x00\x22\x00\xf7\x00\xff\xff\xff\xff\x5f\x00\x27\x00\x61\x00\x62\x00\x63\x00\x64\x00\x65\x00\x66\x00\x67\x00\x68\x00\x69\x00\x6a\x00\x6b\x00\x6c\x00\x6d\x00\x6e\x00\x6f\x00\x70\x00\x71\x00\x72\x00\x73\x00\x74\x00\x75\x00\x76\x00\x77\x00\x78\x00\x79\x00\x7a\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x2e\x00\x0a\x00\x30\x00\x31\x00\x32\x00\x33\x00\x34\x00\x35\x00\x36\x00\x37\x00\x38\x00\x39\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x5c\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x22\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x6e\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x74\x00\x30\x00\x31\x00\x32\x00\x33\x00\x34\x00\x35\x00\x36\x00\x37\x00\x38\x00\x39\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xc0\x00\xc1\x00\xc2\x00\xc3\x00\xc4\x00\xc5\x00\xc6\x00\xc7\x00\xc8\x00\xc9\x00\xca\x00\xcb\x00\xcc\x00\xcd\x00\xce\x00\xcf\x00\xd0\x00\xd1\x00\xd2\x00\xd3\x00\xd4\x00\xd5\x00\xd6\x00\x5c\x00\xd8\x00\xd9\x00\xda\x00\xdb\x00\xdc\x00\xdd\x00\xde\x00\xdf\x00\xe0\x00\xe1\x00\xe2\x00\xe3\x00\xe4\x00\xe5\x00\xe6\x00\xe7\x00\xe8\x00\xe9\x00\xea\x00\xeb\x00\xec\x00\xed\x00\xee\x00\xef\x00\xf0\x00\xf1\x00\xf2\x00\xf3\x00\xf4\x00\xf5\x00\xf6\x00\xff\xff\xf8\x00\xf9\x00\xfa\x00\xfb\x00\xfc\x00\xfd\x00\xfe\x00\xff\x00\x30\x00\x31\x00\x32\x00\x33\x00\x34\x00\x35\x00\x36\x00\x37\x00\x38\x00\x39\x00\x30\x00\x31\x00\x32\x00\x33\x00\x34\x00\x35\x00\x36\x00\x37\x00\x38\x00\x39\x00\x30\x00\x31\x00\x32\x00\x33\x00\x34\x00\x35\x00\x36\x00\x37\x00\x38\x00\x39\x00\x2d\x00\xff\xff\xff\xff\x30\x00\x31\x00\x32\x00\x33\x00\x34\x00\x35\x00\x36\x00\x37\x00\x38\x00\x39\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x65\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff"#
+
+alex_deflt :: AlexAddr
+alex_deflt = AlexA# "\x17\x00\xff\xff\x02\x00\x02\x00\xff\xff\xff\xff\x0a\x00\xff\xff\x0a\x00\x0a\x00\x0a\x00\x0a\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x19\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff"#
+
+alex_accept = listArray (0::Int,32) [[],[],[(AlexAccSkip)],[(AlexAccSkip)],[],[(AlexAcc (alex_action_3))],[(AlexAccSkip)],[(AlexAccSkip)],[],[],[],[],[(AlexAcc (alex_action_3))],[(AlexAccSkip)],[(AlexAcc (alex_action_3))],[(AlexAcc (alex_action_3))],[(AlexAcc (alex_action_3))],[(AlexAcc (alex_action_3))],[(AlexAcc (alex_action_3))],[(AlexAcc (alex_action_3))],[(AlexAcc (alex_action_3))],[(AlexAcc (alex_action_3))],[],[(AlexAcc (alex_action_4))],[(AlexAcc (alex_action_5))],[],[],[(AlexAcc (alex_action_6))],[(AlexAcc (alex_action_7))],[(AlexAcc (alex_action_7))],[],[],[]]
+{-# LINE 34 "Transfer/Syntax/Lex.x" #-}
+
+tok f p s = f p s
+
+share :: String -> String
+share = id
+
+data Tok =
+   TS !String     -- reserved words and symbols
+ | TL !String     -- string literals
+ | TI !String     -- integer literals
+ | TV !String     -- identifiers
+ | TD !String     -- double precision float literals
+ | TC !String     -- character literals
+
+ deriving (Eq,Show,Ord)
+
+data Token = 
+   PT  Posn Tok
+ | Err Posn
+  deriving (Eq,Show,Ord)
+
+tokenPos (PT (Pn _ l _) _ :_) = "line " ++ show l
+tokenPos (Err (Pn _ l _) :_) = "line " ++ show l
+tokenPos _ = "end of file"
+
+posLineCol (Pn _ l c) = (l,c)
+mkPosToken t@(PT p _) = (posLineCol p, prToken t)
+
+prToken t = case t of
+  PT _ (TS s) -> s
+  PT _ (TI s) -> s
+  PT _ (TV s) -> s
+  PT _ (TD s) -> s
+  PT _ (TC s) -> s
+
+  _ -> show t
+
+data BTree = N | B String Tok BTree BTree deriving (Show)
+
+eitherResIdent :: (String -> Tok) -> String -> Tok
+eitherResIdent tv s = treeFind resWords
+  where
+  treeFind N = tv s
+  treeFind (B a t left right) | s < a  = treeFind left
+                              | s > a  = treeFind right
+                              | s == a = t
+
+resWords = b "import" (b "derive" (b "case" (b "Type" N N) (b "data" N N)) (b "else" (b "do" N N) (b "if" N N))) (b "rec" (b "let" (b "in" N N) (b "of" N N)) (b "then" (b "sig" N N) (b "where" N N)))
+   where b s = B s (TS s)
+
+unescapeInitTail :: String -> String
+unescapeInitTail = unesc . tail where
+  unesc s = case s of
+    '\\':c:cs | elem c ['\"', '\\', '\''] -> c : unesc cs
+    '\\':'n':cs  -> '\n' : unesc cs
+    '\\':'t':cs  -> '\t' : unesc cs
+    '"':[]    -> []
+    c:cs      -> c : unesc cs
+    _         -> []
+
+-------------------------------------------------------------------
+-- Alex wrapper code.
+-- A modified "posn" wrapper.
+-------------------------------------------------------------------
+
+data Posn = Pn !Int !Int !Int
+      deriving (Eq, Show,Ord)
+
+alexStartPos :: Posn
+alexStartPos = Pn 0 1 1
+
+alexMove :: Posn -> Char -> Posn
+alexMove (Pn a l c) '\t' = Pn (a+1)  l     (((c+7) `div` 8)*8+1)
+alexMove (Pn a l c) '\n' = Pn (a+1) (l+1)   1
+alexMove (Pn a l c) _    = Pn (a+1)  l     (c+1)
+
+type AlexInput = (Posn, -- current position,
+		  Char,	-- previous char
+		  String)	-- current input string
+
+tokens :: String -> [Token]
+tokens str = go (alexStartPos, '\n', str)
+    where
+      go :: (Posn, Char, String) -> [Token]
+      go inp@(pos, _, str) =
+    	  case alexScan inp 0 of
+    	    AlexEOF                -> []
+    	    AlexError (pos, _, _)  -> fail $ show pos ++ ": lexical error"
+    	    AlexSkip  inp' len     -> go inp'
+    	    AlexToken inp' len act -> act pos (take len str) : (go inp')
+
+alexGetChar :: AlexInput -> Maybe (Char,AlexInput)
+alexGetChar (p, c, [])    = Nothing
+alexGetChar (p, _, (c:s)) =
+    let p' = alexMove p c
+     in p' `seq` Just (c, (p', c, s))
+
+alexInputPrevChar :: AlexInput -> Char
+alexInputPrevChar (p, c, s) = c
+
+alex_action_3 = tok (\p s -> PT p (TS $ share s)) 
+alex_action_4 = tok (\p s -> PT p (eitherResIdent (TV . share) s)) 
+alex_action_5 = tok (\p s -> PT p (TL $ share $ unescapeInitTail s)) 
+alex_action_6 = tok (\p s -> PT p (TI $ share s))    
+alex_action_7 = tok (\p s -> PT p (TD $ share s)) 
+{-# LINE 1 "GenericTemplate.hs" #-}
+{-# LINE 1 "<built-in>" #-}
+{-# LINE 1 "<command line>" #-}
+{-# LINE 1 "GenericTemplate.hs" #-}
+-- -----------------------------------------------------------------------------
+-- ALEX TEMPLATE
+--
+-- This code is in the PUBLIC DOMAIN; you may copy it freely and use
+-- it for any purpose whatsoever.
+
+-- -----------------------------------------------------------------------------
+-- INTERNALS and main scanner engine
+
+{-# LINE 35 "GenericTemplate.hs" #-}
+
+{-# LINE 45 "GenericTemplate.hs" #-}
+
+
+data AlexAddr = AlexA# Addr#
+
+#if __GLASGOW_HASKELL__ < 503
+uncheckedShiftL# = shiftL#
+#endif
+
+{-# INLINE alexIndexInt16OffAddr #-}
+alexIndexInt16OffAddr (AlexA# arr) off =
+#ifdef WORDS_BIGENDIAN
+  narrow16Int# i
+  where
+	i    = word2Int# ((high `uncheckedShiftL#` 8#) `or#` low)
+	high = int2Word# (ord# (indexCharOffAddr# arr (off' +# 1#)))
+	low  = int2Word# (ord# (indexCharOffAddr# arr off'))
+	off' = off *# 2#
+#else
+  indexInt16OffAddr# arr off
+#endif
+
+
+
+
+
+{-# INLINE alexIndexInt32OffAddr #-}
+alexIndexInt32OffAddr (AlexA# arr) off = 
+#ifdef WORDS_BIGENDIAN
+  narrow32Int# i
+  where
+   i    = word2Int# ((b3 `uncheckedShiftL#` 24#) `or#`
+		     (b2 `uncheckedShiftL#` 16#) `or#`
+		     (b1 `uncheckedShiftL#` 8#) `or#` b0)
+   b3   = int2Word# (ord# (indexCharOffAddr# arr (off' +# 3#)))
+   b2   = int2Word# (ord# (indexCharOffAddr# arr (off' +# 2#)))
+   b1   = int2Word# (ord# (indexCharOffAddr# arr (off' +# 1#)))
+   b0   = int2Word# (ord# (indexCharOffAddr# arr off'))
+   off' = off *# 4#
+#else
+  indexInt32OffAddr# arr off
+#endif
+
+
+
+
+
+#if __GLASGOW_HASKELL__ < 503
+quickIndex arr i = arr ! i
+#else
+-- GHC >= 503, unsafeAt is available from Data.Array.Base.
+quickIndex = unsafeAt
+#endif
+
+
+
+
+-- -----------------------------------------------------------------------------
+-- Main lexing routines
+
+data AlexReturn a
+  = AlexEOF
+  | AlexError  !AlexInput
+  | AlexSkip   !AlexInput !Int
+  | AlexToken  !AlexInput !Int a
+
+-- alexScan :: AlexInput -> StartCode -> Maybe (AlexInput,Int,act)
+alexScan input (I# (sc))
+  = alexScanUser undefined input (I# (sc))
+
+alexScanUser user input (I# (sc))
+  = case alex_scan_tkn user input 0# input sc AlexNone of
+	(AlexNone, input') ->
+		case alexGetChar input of
+			Nothing -> 
+
+
+
+				   AlexEOF
+			Just _ ->
+
+
+
+				   AlexError input'
+
+	(AlexLastSkip input len, _) ->
+
+
+
+		AlexSkip input len
+
+	(AlexLastAcc k input len, _) ->
+
+
+
+		AlexToken input len k
+
+
+-- Push the input through the DFA, remembering the most recent accepting
+-- state it encountered.
+
+alex_scan_tkn user orig_input len input s last_acc =
+  input `seq` -- strict in the input
+  case s of 
+    -1# -> (last_acc, input)
+    _ -> alex_scan_tkn' user orig_input len input s last_acc
+
+alex_scan_tkn' user orig_input len input s last_acc =
+  let 
+	new_acc = check_accs (alex_accept `quickIndex` (I# (s)))
+  in
+  new_acc `seq`
+  case alexGetChar input of
+     Nothing -> (new_acc, input)
+     Just (c, new_input) -> 
+
+
+
+	let
+		base   = alexIndexInt32OffAddr alex_base s
+		(I# (ord_c)) = ord c
+		offset = (base +# ord_c)
+		check  = alexIndexInt16OffAddr alex_check offset
+		
+		new_s = if (offset >=# 0#) && (check ==# ord_c)
+			  then alexIndexInt16OffAddr alex_table offset
+			  else alexIndexInt16OffAddr alex_deflt s
+	in
+	alex_scan_tkn user orig_input (len +# 1#) new_input new_s new_acc
+
+  where
+	check_accs [] = last_acc
+	check_accs (AlexAcc a : _) = AlexLastAcc a input (I# (len))
+	check_accs (AlexAccSkip : _)  = AlexLastSkip  input (I# (len))
+	check_accs (AlexAccPred a pred : rest)
+	   | pred user orig_input (I# (len)) input
+	   = AlexLastAcc a input (I# (len))
+	check_accs (AlexAccSkipPred pred : rest)
+	   | pred user orig_input (I# (len)) input
+	   = AlexLastSkip input (I# (len))
+	check_accs (_ : rest) = check_accs rest
+
+data AlexLastAcc a
+  = AlexNone
+  | AlexLastAcc a !AlexInput !Int
+  | AlexLastSkip  !AlexInput !Int
+
+data AlexAcc a user
+  = AlexAcc a
+  | AlexAccSkip
+  | AlexAccPred a (AlexAccPred user)
+  | AlexAccSkipPred (AlexAccPred user)
+
+type AlexAccPred user = user -> AlexInput -> Int -> AlexInput -> Bool
+
+-- -----------------------------------------------------------------------------
+-- Predicates on a rule
+
+alexAndPred p1 p2 user in1 len in2
+  = p1 user in1 len in2 && p2 user in1 len in2
+
+--alexPrevCharIsPred :: Char -> AlexAccPred _ 
+alexPrevCharIs c _ input _ _ = c == alexInputPrevChar input
+
+--alexPrevCharIsOneOfPred :: Array Char Bool -> AlexAccPred _ 
+alexPrevCharIsOneOf arr _ input _ _ = arr ! alexInputPrevChar input
+
+--alexRightContext :: Int -> AlexAccPred _
+alexRightContext (I# (sc)) user _ _ input = 
+     case alex_scan_tkn user input 0# input sc AlexNone of
+	  (AlexNone, _) -> False
+	  _ -> True
+	-- TODO: there's no need to find the longest
+	-- match when checking the right context, just
+	-- the first match will do.
+
+-- used by wrappers
+iUnbox (I# (i)) = i
diff --git a/src/Transfer/Syntax/Lex.x b/src/Transfer/Syntax/Lex.x
new file mode 100644
index 000000000..107b67345
--- /dev/null
+++ b/src/Transfer/Syntax/Lex.x
@@ -0,0 +1,134 @@
+-- -*- haskell -*-
+-- This Alex file was machine-generated by the BNF converter
+{
+{-# OPTIONS -fno-warn-incomplete-patterns #-}
+module Transfer.Syntax.Lex where
+
+
+}
+
+
+$l = [a-zA-Z\192 - \255] # [\215 \247]    -- isolatin1 letter FIXME
+$c = [A-Z\192-\221] # [\215]    -- capital isolatin1 letter FIXME
+$s = [a-z\222-\255] # [\247]    -- small isolatin1 letter FIXME
+$d = [0-9]                -- digit
+$i = [$l $d _ ']          -- identifier character
+$u = [\0-\255]          -- universal: any character
+
+@rsyms =    -- symbols and non-identifier-like reserved words
+   \; | \: | \{ | \} | \= | \| | \| \| | \: \: | \( | \) | \[ | \] | \, | \_ | \- \> | \\ | \< \- | \> \> \= | \> \> | \& \& | \= \= | \/ \= | \< | \< \= | \> | \> \= | \+ | \- | \* | \/ | \% | \. | \?
+
+:-
+"--" [.]* ; -- Toss single line comments
+"{-" ([$u # \-] | \- [$u # \}])* ("-")+ "}" ; 
+
+$white+ ;
+@rsyms { tok (\p s -> PT p (TS $ share s)) }
+
+$l $i*   { tok (\p s -> PT p (eitherResIdent (TV . share) s)) }
+\" ([$u # [\" \\ \n]] | (\\ (\" | \\ | \' | n | t)))* \"{ tok (\p s -> PT p (TL $ share $ unescapeInitTail s)) }
+
+$d+      { tok (\p s -> PT p (TI $ share s))    }
+$d+ \. $d+ (e (\-)? $d+)? { tok (\p s -> PT p (TD $ share s)) }
+
+{
+
+tok f p s = f p s
+
+share :: String -> String
+share = id
+
+data Tok =
+   TS !String     -- reserved words and symbols
+ | TL !String     -- string literals
+ | TI !String     -- integer literals
+ | TV !String     -- identifiers
+ | TD !String     -- double precision float literals
+ | TC !String     -- character literals
+
+ deriving (Eq,Show,Ord)
+
+data Token = 
+   PT  Posn Tok
+ | Err Posn
+  deriving (Eq,Show,Ord)
+
+tokenPos (PT (Pn _ l _) _ :_) = "line " ++ show l
+tokenPos (Err (Pn _ l _) :_) = "line " ++ show l
+tokenPos _ = "end of file"
+
+posLineCol (Pn _ l c) = (l,c)
+mkPosToken t@(PT p _) = (posLineCol p, prToken t)
+
+prToken t = case t of
+  PT _ (TS s) -> s
+  PT _ (TI s) -> s
+  PT _ (TV s) -> s
+  PT _ (TD s) -> s
+  PT _ (TC s) -> s
+
+  _ -> show t
+
+data BTree = N | B String Tok BTree BTree deriving (Show)
+
+eitherResIdent :: (String -> Tok) -> String -> Tok
+eitherResIdent tv s = treeFind resWords
+  where
+  treeFind N = tv s
+  treeFind (B a t left right) | s < a  = treeFind left
+                              | s > a  = treeFind right
+                              | s == a = t
+
+resWords = b "import" (b "derive" (b "case" (b "Type" N N) (b "data" N N)) (b "else" (b "do" N N) (b "if" N N))) (b "rec" (b "let" (b "in" N N) (b "of" N N)) (b "then" (b "sig" N N) (b "where" N N)))
+   where b s = B s (TS s)
+
+unescapeInitTail :: String -> String
+unescapeInitTail = unesc . tail where
+  unesc s = case s of
+    '\\':c:cs | elem c ['\"', '\\', '\''] -> c : unesc cs
+    '\\':'n':cs  -> '\n' : unesc cs
+    '\\':'t':cs  -> '\t' : unesc cs
+    '"':[]    -> []
+    c:cs      -> c : unesc cs
+    _         -> []
+
+-------------------------------------------------------------------
+-- Alex wrapper code.
+-- A modified "posn" wrapper.
+-------------------------------------------------------------------
+
+data Posn = Pn !Int !Int !Int
+      deriving (Eq, Show,Ord)
+
+alexStartPos :: Posn
+alexStartPos = Pn 0 1 1
+
+alexMove :: Posn -> Char -> Posn
+alexMove (Pn a l c) '\t' = Pn (a+1)  l     (((c+7) `div` 8)*8+1)
+alexMove (Pn a l c) '\n' = Pn (a+1) (l+1)   1
+alexMove (Pn a l c) _    = Pn (a+1)  l     (c+1)
+
+type AlexInput = (Posn, -- current position,
+		  Char,	-- previous char
+		  String)	-- current input string
+
+tokens :: String -> [Token]
+tokens str = go (alexStartPos, '\n', str)
+    where
+      go :: (Posn, Char, String) -> [Token]
+      go inp@(pos, _, str) =
+    	  case alexScan inp 0 of
+    	    AlexEOF                -> []
+    	    AlexError (pos, _, _)  -> fail $ show pos ++ ": lexical error"
+    	    AlexSkip  inp' len     -> go inp'
+    	    AlexToken inp' len act -> act pos (take len str) : (go inp')
+
+alexGetChar :: AlexInput -> Maybe (Char,AlexInput)
+alexGetChar (p, c, [])    = Nothing
+alexGetChar (p, _, (c:s)) =
+    let p' = alexMove p c
+     in p' `seq` Just (c, (p', c, s))
+
+alexInputPrevChar :: AlexInput -> Char
+alexInputPrevChar (p, c, s) = c
+}
diff --git a/src/Transfer/Syntax/Par.hs b/src/Transfer/Syntax/Par.hs
new file mode 100644
index 000000000..bd83f0a87
--- /dev/null
+++ b/src/Transfer/Syntax/Par.hs
@@ -0,0 +1,1822 @@
+{-# OPTIONS -fglasgow-exts -cpp #-}
+{-# OPTIONS -fno-warn-incomplete-patterns -fno-warn-overlapping-patterns #-}
+module Transfer.Syntax.Par where
+import Transfer.Syntax.Abs
+import Transfer.Syntax.Lex
+import Transfer.ErrM
+import Array
+#if __GLASGOW_HASKELL__ >= 503
+import GHC.Exts
+#else
+import GlaExts
+#endif
+
+-- parser produced by Happy Version 1.15
+
+newtype HappyAbsSyn  = HappyAbsSyn (() -> ())
+happyIn5 :: (Ident) -> (HappyAbsSyn )
+happyIn5 x = unsafeCoerce# x
+{-# INLINE happyIn5 #-}
+happyOut5 :: (HappyAbsSyn ) -> (Ident)
+happyOut5 x = unsafeCoerce# x
+{-# INLINE happyOut5 #-}
+happyIn6 :: (String) -> (HappyAbsSyn )
+happyIn6 x = unsafeCoerce# x
+{-# INLINE happyIn6 #-}
+happyOut6 :: (HappyAbsSyn ) -> (String)
+happyOut6 x = unsafeCoerce# x
+{-# INLINE happyOut6 #-}
+happyIn7 :: (Integer) -> (HappyAbsSyn )
+happyIn7 x = unsafeCoerce# x
+{-# INLINE happyIn7 #-}
+happyOut7 :: (HappyAbsSyn ) -> (Integer)
+happyOut7 x = unsafeCoerce# x
+{-# INLINE happyOut7 #-}
+happyIn8 :: (Double) -> (HappyAbsSyn )
+happyIn8 x = unsafeCoerce# x
+{-# INLINE happyIn8 #-}
+happyOut8 :: (HappyAbsSyn ) -> (Double)
+happyOut8 x = unsafeCoerce# x
+{-# INLINE happyOut8 #-}
+happyIn9 :: (Module) -> (HappyAbsSyn )
+happyIn9 x = unsafeCoerce# x
+{-# INLINE happyIn9 #-}
+happyOut9 :: (HappyAbsSyn ) -> (Module)
+happyOut9 x = unsafeCoerce# x
+{-# INLINE happyOut9 #-}
+happyIn10 :: (Import) -> (HappyAbsSyn )
+happyIn10 x = unsafeCoerce# x
+{-# INLINE happyIn10 #-}
+happyOut10 :: (HappyAbsSyn ) -> (Import)
+happyOut10 x = unsafeCoerce# x
+{-# INLINE happyOut10 #-}
+happyIn11 :: ([Import]) -> (HappyAbsSyn )
+happyIn11 x = unsafeCoerce# x
+{-# INLINE happyIn11 #-}
+happyOut11 :: (HappyAbsSyn ) -> ([Import])
+happyOut11 x = unsafeCoerce# x
+{-# INLINE happyOut11 #-}
+happyIn12 :: (Decl) -> (HappyAbsSyn )
+happyIn12 x = unsafeCoerce# x
+{-# INLINE happyIn12 #-}
+happyOut12 :: (HappyAbsSyn ) -> (Decl)
+happyOut12 x = unsafeCoerce# x
+{-# INLINE happyOut12 #-}
+happyIn13 :: ([Decl]) -> (HappyAbsSyn )
+happyIn13 x = unsafeCoerce# x
+{-# INLINE happyIn13 #-}
+happyOut13 :: (HappyAbsSyn ) -> ([Decl])
+happyOut13 x = unsafeCoerce# x
+{-# INLINE happyOut13 #-}
+happyIn14 :: (ConsDecl) -> (HappyAbsSyn )
+happyIn14 x = unsafeCoerce# x
+{-# INLINE happyIn14 #-}
+happyOut14 :: (HappyAbsSyn ) -> (ConsDecl)
+happyOut14 x = unsafeCoerce# x
+{-# INLINE happyOut14 #-}
+happyIn15 :: ([ConsDecl]) -> (HappyAbsSyn )
+happyIn15 x = unsafeCoerce# x
+{-# INLINE happyIn15 #-}
+happyOut15 :: (HappyAbsSyn ) -> ([ConsDecl])
+happyOut15 x = unsafeCoerce# x
+{-# INLINE happyOut15 #-}
+happyIn16 :: (Guard) -> (HappyAbsSyn )
+happyIn16 x = unsafeCoerce# x
+{-# INLINE happyIn16 #-}
+happyOut16 :: (HappyAbsSyn ) -> (Guard)
+happyOut16 x = unsafeCoerce# x
+{-# INLINE happyOut16 #-}
+happyIn17 :: (Pattern) -> (HappyAbsSyn )
+happyIn17 x = unsafeCoerce# x
+{-# INLINE happyIn17 #-}
+happyOut17 :: (HappyAbsSyn ) -> (Pattern)
+happyOut17 x = unsafeCoerce# x
+{-# INLINE happyOut17 #-}
+happyIn18 :: (Pattern) -> (HappyAbsSyn )
+happyIn18 x = unsafeCoerce# x
+{-# INLINE happyIn18 #-}
+happyOut18 :: (HappyAbsSyn ) -> (Pattern)
+happyOut18 x = unsafeCoerce# x
+{-# INLINE happyOut18 #-}
+happyIn19 :: (Pattern) -> (HappyAbsSyn )
+happyIn19 x = unsafeCoerce# x
+{-# INLINE happyIn19 #-}
+happyOut19 :: (HappyAbsSyn ) -> (Pattern)
+happyOut19 x = unsafeCoerce# x
+{-# INLINE happyOut19 #-}
+happyIn20 :: (Pattern) -> (HappyAbsSyn )
+happyIn20 x = unsafeCoerce# x
+{-# INLINE happyIn20 #-}
+happyOut20 :: (HappyAbsSyn ) -> (Pattern)
+happyOut20 x = unsafeCoerce# x
+{-# INLINE happyOut20 #-}
+happyIn21 :: (CommaPattern) -> (HappyAbsSyn )
+happyIn21 x = unsafeCoerce# x
+{-# INLINE happyIn21 #-}
+happyOut21 :: (HappyAbsSyn ) -> (CommaPattern)
+happyOut21 x = unsafeCoerce# x
+{-# INLINE happyOut21 #-}
+happyIn22 :: ([CommaPattern]) -> (HappyAbsSyn )
+happyIn22 x = unsafeCoerce# x
+{-# INLINE happyIn22 #-}
+happyOut22 :: (HappyAbsSyn ) -> ([CommaPattern])
+happyOut22 x = unsafeCoerce# x
+{-# INLINE happyOut22 #-}
+happyIn23 :: ([Pattern]) -> (HappyAbsSyn )
+happyIn23 x = unsafeCoerce# x
+{-# INLINE happyIn23 #-}
+happyOut23 :: (HappyAbsSyn ) -> ([Pattern])
+happyOut23 x = unsafeCoerce# x
+{-# INLINE happyOut23 #-}
+happyIn24 :: (FieldPattern) -> (HappyAbsSyn )
+happyIn24 x = unsafeCoerce# x
+{-# INLINE happyIn24 #-}
+happyOut24 :: (HappyAbsSyn ) -> (FieldPattern)
+happyOut24 x = unsafeCoerce# x
+{-# INLINE happyOut24 #-}
+happyIn25 :: ([FieldPattern]) -> (HappyAbsSyn )
+happyIn25 x = unsafeCoerce# x
+{-# INLINE happyIn25 #-}
+happyOut25 :: (HappyAbsSyn ) -> ([FieldPattern])
+happyOut25 x = unsafeCoerce# x
+{-# INLINE happyOut25 #-}
+happyIn26 :: (Exp) -> (HappyAbsSyn )
+happyIn26 x = unsafeCoerce# x
+{-# INLINE happyIn26 #-}
+happyOut26 :: (HappyAbsSyn ) -> (Exp)
+happyOut26 x = unsafeCoerce# x
+{-# INLINE happyOut26 #-}
+happyIn27 :: (VarOrWild) -> (HappyAbsSyn )
+happyIn27 x = unsafeCoerce# x
+{-# INLINE happyIn27 #-}
+happyOut27 :: (HappyAbsSyn ) -> (VarOrWild)
+happyOut27 x = unsafeCoerce# x
+{-# INLINE happyOut27 #-}
+happyIn28 :: (Exp) -> (HappyAbsSyn )
+happyIn28 x = unsafeCoerce# x
+{-# INLINE happyIn28 #-}
+happyOut28 :: (HappyAbsSyn ) -> (Exp)
+happyOut28 x = unsafeCoerce# x
+{-# INLINE happyOut28 #-}
+happyIn29 :: (LetDef) -> (HappyAbsSyn )
+happyIn29 x = unsafeCoerce# x
+{-# INLINE happyIn29 #-}
+happyOut29 :: (HappyAbsSyn ) -> (LetDef)
+happyOut29 x = unsafeCoerce# x
+{-# INLINE happyOut29 #-}
+happyIn30 :: ([LetDef]) -> (HappyAbsSyn )
+happyIn30 x = unsafeCoerce# x
+{-# INLINE happyIn30 #-}
+happyOut30 :: (HappyAbsSyn ) -> ([LetDef])
+happyOut30 x = unsafeCoerce# x
+{-# INLINE happyOut30 #-}
+happyIn31 :: (Case) -> (HappyAbsSyn )
+happyIn31 x = unsafeCoerce# x
+{-# INLINE happyIn31 #-}
+happyOut31 :: (HappyAbsSyn ) -> (Case)
+happyOut31 x = unsafeCoerce# x
+{-# INLINE happyOut31 #-}
+happyIn32 :: ([Case]) -> (HappyAbsSyn )
+happyIn32 x = unsafeCoerce# x
+{-# INLINE happyIn32 #-}
+happyOut32 :: (HappyAbsSyn ) -> ([Case])
+happyOut32 x = unsafeCoerce# x
+{-# INLINE happyOut32 #-}
+happyIn33 :: (Bind) -> (HappyAbsSyn )
+happyIn33 x = unsafeCoerce# x
+{-# INLINE happyIn33 #-}
+happyOut33 :: (HappyAbsSyn ) -> (Bind)
+happyOut33 x = unsafeCoerce# x
+{-# INLINE happyOut33 #-}
+happyIn34 :: ([Bind]) -> (HappyAbsSyn )
+happyIn34 x = unsafeCoerce# x
+{-# INLINE happyIn34 #-}
+happyOut34 :: (HappyAbsSyn ) -> ([Bind])
+happyOut34 x = unsafeCoerce# x
+{-# INLINE happyOut34 #-}
+happyIn35 :: (Exp) -> (HappyAbsSyn )
+happyIn35 x = unsafeCoerce# x
+{-# INLINE happyIn35 #-}
+happyOut35 :: (HappyAbsSyn ) -> (Exp)
+happyOut35 x = unsafeCoerce# x
+{-# INLINE happyOut35 #-}
+happyIn36 :: (Exp) -> (HappyAbsSyn )
+happyIn36 x = unsafeCoerce# x
+{-# INLINE happyIn36 #-}
+happyOut36 :: (HappyAbsSyn ) -> (Exp)
+happyOut36 x = unsafeCoerce# x
+{-# INLINE happyOut36 #-}
+happyIn37 :: (Exp) -> (HappyAbsSyn )
+happyIn37 x = unsafeCoerce# x
+{-# INLINE happyIn37 #-}
+happyOut37 :: (HappyAbsSyn ) -> (Exp)
+happyOut37 x = unsafeCoerce# x
+{-# INLINE happyOut37 #-}
+happyIn38 :: (Exp) -> (HappyAbsSyn )
+happyIn38 x = unsafeCoerce# x
+{-# INLINE happyIn38 #-}
+happyOut38 :: (HappyAbsSyn ) -> (Exp)
+happyOut38 x = unsafeCoerce# x
+{-# INLINE happyOut38 #-}
+happyIn39 :: (Exp) -> (HappyAbsSyn )
+happyIn39 x = unsafeCoerce# x
+{-# INLINE happyIn39 #-}
+happyOut39 :: (HappyAbsSyn ) -> (Exp)
+happyOut39 x = unsafeCoerce# x
+{-# INLINE happyOut39 #-}
+happyIn40 :: (Exp) -> (HappyAbsSyn )
+happyIn40 x = unsafeCoerce# x
+{-# INLINE happyIn40 #-}
+happyOut40 :: (HappyAbsSyn ) -> (Exp)
+happyOut40 x = unsafeCoerce# x
+{-# INLINE happyOut40 #-}
+happyIn41 :: (Exp) -> (HappyAbsSyn )
+happyIn41 x = unsafeCoerce# x
+{-# INLINE happyIn41 #-}
+happyOut41 :: (HappyAbsSyn ) -> (Exp)
+happyOut41 x = unsafeCoerce# x
+{-# INLINE happyOut41 #-}
+happyIn42 :: (Exp) -> (HappyAbsSyn )
+happyIn42 x = unsafeCoerce# x
+{-# INLINE happyIn42 #-}
+happyOut42 :: (HappyAbsSyn ) -> (Exp)
+happyOut42 x = unsafeCoerce# x
+{-# INLINE happyOut42 #-}
+happyIn43 :: (Exp) -> (HappyAbsSyn )
+happyIn43 x = unsafeCoerce# x
+{-# INLINE happyIn43 #-}
+happyOut43 :: (HappyAbsSyn ) -> (Exp)
+happyOut43 x = unsafeCoerce# x
+{-# INLINE happyOut43 #-}
+happyIn44 :: (Exp) -> (HappyAbsSyn )
+happyIn44 x = unsafeCoerce# x
+{-# INLINE happyIn44 #-}
+happyOut44 :: (HappyAbsSyn ) -> (Exp)
+happyOut44 x = unsafeCoerce# x
+{-# INLINE happyOut44 #-}
+happyIn45 :: (Exp) -> (HappyAbsSyn )
+happyIn45 x = unsafeCoerce# x
+{-# INLINE happyIn45 #-}
+happyOut45 :: (HappyAbsSyn ) -> (Exp)
+happyOut45 x = unsafeCoerce# x
+{-# INLINE happyOut45 #-}
+happyIn46 :: (FieldType) -> (HappyAbsSyn )
+happyIn46 x = unsafeCoerce# x
+{-# INLINE happyIn46 #-}
+happyOut46 :: (HappyAbsSyn ) -> (FieldType)
+happyOut46 x = unsafeCoerce# x
+{-# INLINE happyOut46 #-}
+happyIn47 :: ([FieldType]) -> (HappyAbsSyn )
+happyIn47 x = unsafeCoerce# x
+{-# INLINE happyIn47 #-}
+happyOut47 :: (HappyAbsSyn ) -> ([FieldType])
+happyOut47 x = unsafeCoerce# x
+{-# INLINE happyOut47 #-}
+happyIn48 :: (FieldValue) -> (HappyAbsSyn )
+happyIn48 x = unsafeCoerce# x
+{-# INLINE happyIn48 #-}
+happyOut48 :: (HappyAbsSyn ) -> (FieldValue)
+happyOut48 x = unsafeCoerce# x
+{-# INLINE happyOut48 #-}
+happyIn49 :: ([FieldValue]) -> (HappyAbsSyn )
+happyIn49 x = unsafeCoerce# x
+{-# INLINE happyIn49 #-}
+happyOut49 :: (HappyAbsSyn ) -> ([FieldValue])
+happyOut49 x = unsafeCoerce# x
+{-# INLINE happyOut49 #-}
+happyIn50 :: (Exp) -> (HappyAbsSyn )
+happyIn50 x = unsafeCoerce# x
+{-# INLINE happyIn50 #-}
+happyOut50 :: (HappyAbsSyn ) -> (Exp)
+happyOut50 x = unsafeCoerce# x
+{-# INLINE happyOut50 #-}
+happyIn51 :: ([Exp]) -> (HappyAbsSyn )
+happyIn51 x = unsafeCoerce# x
+{-# INLINE happyIn51 #-}
+happyOut51 :: (HappyAbsSyn ) -> ([Exp])
+happyOut51 x = unsafeCoerce# x
+{-# INLINE happyOut51 #-}
+happyInTok :: Token -> (HappyAbsSyn )
+happyInTok x = unsafeCoerce# x
+{-# INLINE happyInTok #-}
+happyOutTok :: (HappyAbsSyn ) -> Token
+happyOutTok x = unsafeCoerce# x
+{-# INLINE happyOutTok #-}
+
+happyActOffsets :: HappyAddr
+happyActOffsets = HappyA# "\x00\x00\x48\x03\x90\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x84\x01\xa8\x01\x34\x00\x00\x00\xaf\x01\xa1\x01\x6c\x00\x9f\x00\xb6\x00\x00\x00\x64\x03\x7d\x01\x00\x00\x00\x00\xd4\x02\xb8\x02\xf9\xff\x50\x03\x00\x00\x00\x00\x48\x03\xb1\x01\x48\x03\xa5\x01\xa0\x01\x9e\x01\x00\x00\x00\x00\x00\x00\x68\x01\x73\x01\x9a\x01\x7d\x00\x5e\x01\x5e\x01\x5e\x01\x5e\x01\x5b\x01\x00\x00\x5c\x01\x00\x00\x48\x03\x00\x00\x75\x01\x00\x00\x78\x01\x77\x01\x00\x00\x03\x00\x41\x00\x80\x01\x45\x01\x51\x01\x50\x03\x50\x03\x50\x03\x50\x03\x50\x03\x50\x03\x50\x03\x50\x03\x50\x03\x50\x03\x50\x03\x50\x03\x50\x03\x50\x03\x50\x03\x50\x03\x48\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xb6\x00\xb6\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x48\x03\x00\x00\x48\x03\x00\x00\x48\x03\x34\x03\x6c\x01\xa4\x02\x18\x03\x67\x01\x6a\x01\x66\x01\x58\x01\x57\x01\x65\x01\x54\x01\x52\x01\x4e\x01\x00\x00\x4f\x01\x3e\x01\x1f\x01\x1f\x01\x00\x00\x1f\x01\x3b\x01\x00\x00\x8c\x02\x18\x03\x00\x00\x13\x01\x18\x03\x00\x00\x13\x01\x18\x03\x10\x01\x08\x01\x18\x03\x04\x01\x34\x01\x26\x01\x20\x01\x85\x03\x00\x00\x00\x00\x1c\x01\x1a\x01\x11\x01\x00\x00\x85\x03\x00\x00\x00\x00\x19\x01\x17\x01\x0a\x01\x00\x00\x0c\x01\x07\x01\x85\x03\x7e\x03\x00\x00\x05\x01\x00\x00\x18\x03\x00\x00\x04\x03\x00\x00\x00\x00\x04\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x01\x00\x00\x04\x03\xe8\x02\x00\x00\xd6\x00\x00\x00\xe8\x02\x00\x00\x00\x00\x00\x00\xd4\x00\x00\x00\xec\x00\xe6\x00\x00\x00\xea\x00\xe2\x00\x00\x00\x85\x03\x85\x03\x85\x03\xde\x00\x00\x00\xe8\x02\x00\x00\x85\x03\xe8\x02\x00\x00\x00\x00\x00\x00\x85\x03\x00\x00\x00\x00\x85\x03\xe9\x00\xdf\x00\xe8\x00\x00\x00\xd8\x00\xa8\x00\x00\x00\xa8\x00\x85\x03\x00\x00\xcc\x00\x00\x00\x00\x00\x00\x00\x00\x00\xc5\x00\xbb\x00\xa5\x00\x00\x00\x8c\x00\xe8\x02\x00\x00\x00\x00\x00\x00"#
+
+happyGotoOffsets :: HappyAddr
+happyGotoOffsets = HappyA# "\xbc\x00\x21\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x6b\x04\x00\x00\x00\x00\x00\x00\x78\x00\x35\x00\x17\x00\x67\x04\x00\x00\x00\x00\x08\x02\x00\x00\xef\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x0d\x00\x00\x00\x0a\x00\x95\x00\x60\x00\x19\x00\x67\x00\x00\x00\x6f\x00\x00\x00\x00\x00\xd6\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x8b\x00\x00\x00\x63\x04\x5f\x04\x5b\x04\x29\x04\x57\x04\x52\x04\x22\x04\x1b\x04\x14\x04\x0d\x04\xe4\x03\xdd\x03\xd6\x03\xcd\x03\xa4\x03\x9a\x03\xbd\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xa4\x01\x00\x00\x1b\x00\x00\x00\x01\x00\x81\x02\x00\x00\x4f\x00\x8b\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x5a\x00\x00\x00\x61\x00\x4d\x00\x00\x00\x0e\x00\x00\x00\x00\x00\xe5\x04\x72\x01\x00\x00\x5e\x00\x59\x01\x00\x00\x08\x00\x40\x01\x00\x00\x13\x00\x27\x01\x00\x00\x00\x00\x00\x00\x00\x00\x98\x04\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x9b\x02\x00\x00\x00\x00\x26\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xcc\x04\xba\x04\x00\x00\x00\x00\x00\x00\x0e\x01\x00\x00\x69\x02\x00\x00\x00\x00\x51\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x39\x02\xf5\x00\x00\x00\x00\x00\x00\x00\xdc\x00\x00\x00\x00\x00\x00\x00\x90\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x94\x04\x9f\x03\xd5\x04\x00\x00\xf7\xff\xc3\x00\x00\x00\x0b\x00\xaa\x00\x00\x00\x00\x00\x00\x00\xb4\x04\x00\x00\x00\x00\x9c\x04\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x5f\x00\x00\x00\x6a\x00\xd1\x04\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x06\x00\x91\x00\x00\x00\x00\x00\x00\x00"#
+
+happyDefActions :: HappyAddr
+happyDefActions = HappyA# "\xf7\xff\x00\x00\x00\x00\xfd\xff\x98\xff\x96\xff\x95\xff\x94\xff\x00\x00\xcf\xff\x89\xff\xb8\xff\xb6\xff\xb4\xff\xad\xff\xab\xff\xa8\xff\xa4\xff\xa2\xff\xa0\xff\x9e\xff\xc7\xff\x00\x00\x00\x00\x00\x00\x00\x00\x93\xff\x97\xff\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xfc\xff\xfb\xff\xfa\xff\x00\x00\xf1\xff\x00\x00\xf9\xff\x00\x00\x90\xff\x8c\xff\xc5\xff\x00\x00\xbc\xff\x00\x00\xa3\xff\x00\x00\xce\xff\x00\x00\xcd\xff\x88\xff\x00\x00\x9b\xff\x98\xff\x00\x00\x00\x00\x00\x00\xa1\xff\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xd0\xff\xb9\xff\xba\xff\xb7\xff\xb5\xff\xae\xff\xaf\xff\xb0\xff\xb1\xff\xb2\xff\xb3\xff\xa9\xff\xaa\xff\xac\xff\xa5\xff\xa6\xff\xa7\xff\x9f\xff\x00\x00\x92\xff\x00\x00\x9a\xff\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xc4\xff\x00\x00\x00\x00\x8b\xff\x00\x00\x00\x00\x8f\xff\x00\x00\xf8\xff\xd7\xff\x00\x00\x00\x00\x00\x00\xf6\xff\x00\x00\x00\x00\xf0\xff\xea\xff\x00\x00\x9d\xff\x90\xff\x00\x00\x9c\xff\x8c\xff\x00\x00\x00\x00\xc5\xff\x00\x00\x00\x00\xbd\xff\x00\x00\x00\x00\xc1\xff\xcc\xff\x87\xff\x00\x00\x00\x00\x00\x00\x99\xff\xdd\xff\xdf\xff\xde\xff\xea\xff\xe8\xff\xe6\xff\xe4\xff\xc0\xff\x00\x00\x00\x00\x00\x00\xdc\xff\x00\x00\xbb\xff\x00\x00\xc8\xff\x00\x00\xc6\xff\xc3\xff\x00\x00\x8d\xff\x8a\xff\x91\xff\x8e\xff\xf4\xff\xdd\xff\x00\x00\xd6\xff\x00\x00\x00\x00\xf2\xff\x00\x00\xeb\xff\x00\x00\xcb\xff\xc9\xff\xbe\xff\xd4\xff\xda\xff\xd9\xff\x00\x00\xe2\xff\xda\xff\x00\x00\xca\xff\xc1\xff\x00\x00\x00\x00\x00\x00\xd7\xff\x00\x00\xd1\xff\xe5\xff\x00\x00\xe9\xff\xe7\xff\xbf\xff\x00\x00\xdb\xff\xe1\xff\x00\x00\x00\x00\xd3\xff\x00\x00\xf3\xff\x00\x00\xee\xff\xe3\xff\xd4\xff\x00\x00\xd8\xff\x00\x00\xc2\xff\xe0\xff\xd5\xff\xd2\xff\x00\x00\xed\xff\x00\x00\xf5\xff\xee\xff\x00\x00\xef\xff\xec\xff"#
+
+happyCheck :: HappyAddr
+happyCheck = HappyA# 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+
+happyTable :: HappyAddr
+happyTable = HappyA# 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+
+happyReduceArr = array (2, 120) [
+	(2 , happyReduce_2),
+	(3 , happyReduce_3),
+	(4 , happyReduce_4),
+	(5 , happyReduce_5),
+	(6 , happyReduce_6),
+	(7 , happyReduce_7),
+	(8 , happyReduce_8),
+	(9 , happyReduce_9),
+	(10 , happyReduce_10),
+	(11 , happyReduce_11),
+	(12 , happyReduce_12),
+	(13 , happyReduce_13),
+	(14 , happyReduce_14),
+	(15 , happyReduce_15),
+	(16 , happyReduce_16),
+	(17 , happyReduce_17),
+	(18 , happyReduce_18),
+	(19 , happyReduce_19),
+	(20 , happyReduce_20),
+	(21 , happyReduce_21),
+	(22 , happyReduce_22),
+	(23 , happyReduce_23),
+	(24 , happyReduce_24),
+	(25 , happyReduce_25),
+	(26 , happyReduce_26),
+	(27 , happyReduce_27),
+	(28 , happyReduce_28),
+	(29 , happyReduce_29),
+	(30 , happyReduce_30),
+	(31 , happyReduce_31),
+	(32 , happyReduce_32),
+	(33 , happyReduce_33),
+	(34 , happyReduce_34),
+	(35 , happyReduce_35),
+	(36 , happyReduce_36),
+	(37 , happyReduce_37),
+	(38 , happyReduce_38),
+	(39 , happyReduce_39),
+	(40 , happyReduce_40),
+	(41 , happyReduce_41),
+	(42 , happyReduce_42),
+	(43 , happyReduce_43),
+	(44 , happyReduce_44),
+	(45 , happyReduce_45),
+	(46 , happyReduce_46),
+	(47 , happyReduce_47),
+	(48 , happyReduce_48),
+	(49 , happyReduce_49),
+	(50 , happyReduce_50),
+	(51 , happyReduce_51),
+	(52 , happyReduce_52),
+	(53 , happyReduce_53),
+	(54 , happyReduce_54),
+	(55 , happyReduce_55),
+	(56 , happyReduce_56),
+	(57 , happyReduce_57),
+	(58 , happyReduce_58),
+	(59 , happyReduce_59),
+	(60 , happyReduce_60),
+	(61 , happyReduce_61),
+	(62 , happyReduce_62),
+	(63 , happyReduce_63),
+	(64 , happyReduce_64),
+	(65 , happyReduce_65),
+	(66 , happyReduce_66),
+	(67 , happyReduce_67),
+	(68 , happyReduce_68),
+	(69 , happyReduce_69),
+	(70 , happyReduce_70),
+	(71 , happyReduce_71),
+	(72 , happyReduce_72),
+	(73 , happyReduce_73),
+	(74 , happyReduce_74),
+	(75 , happyReduce_75),
+	(76 , happyReduce_76),
+	(77 , happyReduce_77),
+	(78 , happyReduce_78),
+	(79 , happyReduce_79),
+	(80 , happyReduce_80),
+	(81 , happyReduce_81),
+	(82 , happyReduce_82),
+	(83 , happyReduce_83),
+	(84 , happyReduce_84),
+	(85 , happyReduce_85),
+	(86 , happyReduce_86),
+	(87 , happyReduce_87),
+	(88 , happyReduce_88),
+	(89 , happyReduce_89),
+	(90 , happyReduce_90),
+	(91 , happyReduce_91),
+	(92 , happyReduce_92),
+	(93 , happyReduce_93),
+	(94 , happyReduce_94),
+	(95 , happyReduce_95),
+	(96 , happyReduce_96),
+	(97 , happyReduce_97),
+	(98 , happyReduce_98),
+	(99 , happyReduce_99),
+	(100 , happyReduce_100),
+	(101 , happyReduce_101),
+	(102 , happyReduce_102),
+	(103 , happyReduce_103),
+	(104 , happyReduce_104),
+	(105 , happyReduce_105),
+	(106 , happyReduce_106),
+	(107 , happyReduce_107),
+	(108 , happyReduce_108),
+	(109 , happyReduce_109),
+	(110 , happyReduce_110),
+	(111 , happyReduce_111),
+	(112 , happyReduce_112),
+	(113 , happyReduce_113),
+	(114 , happyReduce_114),
+	(115 , happyReduce_115),
+	(116 , happyReduce_116),
+	(117 , happyReduce_117),
+	(118 , happyReduce_118),
+	(119 , happyReduce_119),
+	(120 , happyReduce_120)
+	]
+
+happy_n_terms = 55 :: Int
+happy_n_nonterms = 47 :: Int
+
+happyReduce_2 = happySpecReduce_1 0# happyReduction_2
+happyReduction_2 happy_x_1
+	 =  case happyOutTok happy_x_1 of { (PT _ (TV happy_var_1)) -> 
+	happyIn5
+		 (Ident happy_var_1
+	)}
+
+happyReduce_3 = happySpecReduce_1 1# happyReduction_3
+happyReduction_3 happy_x_1
+	 =  case happyOutTok happy_x_1 of { (PT _ (TL happy_var_1)) -> 
+	happyIn6
+		 (happy_var_1
+	)}
+
+happyReduce_4 = happySpecReduce_1 2# happyReduction_4
+happyReduction_4 happy_x_1
+	 =  case happyOutTok happy_x_1 of { (PT _ (TI happy_var_1)) -> 
+	happyIn7
+		 ((read happy_var_1) :: Integer
+	)}
+
+happyReduce_5 = happySpecReduce_1 3# happyReduction_5
+happyReduction_5 happy_x_1
+	 =  case happyOutTok happy_x_1 of { (PT _ (TD happy_var_1)) -> 
+	happyIn8
+		 ((read happy_var_1) :: Double
+	)}
+
+happyReduce_6 = happySpecReduce_2 4# happyReduction_6
+happyReduction_6 happy_x_2
+	happy_x_1
+	 =  case happyOut11 happy_x_1 of { happy_var_1 -> 
+	case happyOut13 happy_x_2 of { happy_var_2 -> 
+	happyIn9
+		 (Module (reverse happy_var_1) (reverse happy_var_2)
+	)}}
+
+happyReduce_7 = happySpecReduce_2 5# happyReduction_7
+happyReduction_7 happy_x_2
+	happy_x_1
+	 =  case happyOut5 happy_x_2 of { happy_var_2 -> 
+	happyIn10
+		 (Import happy_var_2
+	)}
+
+happyReduce_8 = happySpecReduce_0 6# happyReduction_8
+happyReduction_8  =  happyIn11
+		 ([]
+	)
+
+happyReduce_9 = happySpecReduce_3 6# happyReduction_9
+happyReduction_9 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut11 happy_x_1 of { happy_var_1 -> 
+	case happyOut10 happy_x_2 of { happy_var_2 -> 
+	happyIn11
+		 (flip (:) happy_var_1 happy_var_2
+	)}}
+
+happyReduce_10 = happyReduce 8# 7# happyReduction_10
+happyReduction_10 (happy_x_8 `HappyStk`
+	happy_x_7 `HappyStk`
+	happy_x_6 `HappyStk`
+	happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut5 happy_x_2 of { happy_var_2 -> 
+	case happyOut26 happy_x_4 of { happy_var_4 -> 
+	case happyOut15 happy_x_7 of { happy_var_7 -> 
+	happyIn12
+		 (DataDecl happy_var_2 happy_var_4 happy_var_7
+	) `HappyStk` happyRest}}}
+
+happyReduce_11 = happySpecReduce_3 7# happyReduction_11
+happyReduction_11 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut5 happy_x_1 of { happy_var_1 -> 
+	case happyOut26 happy_x_3 of { happy_var_3 -> 
+	happyIn12
+		 (TypeDecl happy_var_1 happy_var_3
+	)}}
+
+happyReduce_12 = happyReduce 5# 7# happyReduction_12
+happyReduction_12 (happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut5 happy_x_1 of { happy_var_1 -> 
+	case happyOut23 happy_x_2 of { happy_var_2 -> 
+	case happyOut16 happy_x_3 of { happy_var_3 -> 
+	case happyOut26 happy_x_5 of { happy_var_5 -> 
+	happyIn12
+		 (ValueDecl happy_var_1 (reverse happy_var_2) happy_var_3 happy_var_5
+	) `HappyStk` happyRest}}}}
+
+happyReduce_13 = happySpecReduce_3 7# happyReduction_13
+happyReduction_13 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut5 happy_x_2 of { happy_var_2 -> 
+	case happyOut5 happy_x_3 of { happy_var_3 -> 
+	happyIn12
+		 (DeriveDecl happy_var_2 happy_var_3
+	)}}
+
+happyReduce_14 = happySpecReduce_0 8# happyReduction_14
+happyReduction_14  =  happyIn13
+		 ([]
+	)
+
+happyReduce_15 = happySpecReduce_3 8# happyReduction_15
+happyReduction_15 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut13 happy_x_1 of { happy_var_1 -> 
+	case happyOut12 happy_x_2 of { happy_var_2 -> 
+	happyIn13
+		 (flip (:) happy_var_1 happy_var_2
+	)}}
+
+happyReduce_16 = happySpecReduce_3 9# happyReduction_16
+happyReduction_16 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut5 happy_x_1 of { happy_var_1 -> 
+	case happyOut26 happy_x_3 of { happy_var_3 -> 
+	happyIn14
+		 (ConsDecl happy_var_1 happy_var_3
+	)}}
+
+happyReduce_17 = happySpecReduce_0 10# happyReduction_17
+happyReduction_17  =  happyIn15
+		 ([]
+	)
+
+happyReduce_18 = happySpecReduce_1 10# happyReduction_18
+happyReduction_18 happy_x_1
+	 =  case happyOut14 happy_x_1 of { happy_var_1 -> 
+	happyIn15
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_19 = happySpecReduce_3 10# happyReduction_19
+happyReduction_19 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut14 happy_x_1 of { happy_var_1 -> 
+	case happyOut15 happy_x_3 of { happy_var_3 -> 
+	happyIn15
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_20 = happySpecReduce_2 11# happyReduction_20
+happyReduction_20 happy_x_2
+	happy_x_1
+	 =  case happyOut28 happy_x_2 of { happy_var_2 -> 
+	happyIn16
+		 (GuardExp happy_var_2
+	)}
+
+happyReduce_21 = happySpecReduce_0 11# happyReduction_21
+happyReduction_21  =  happyIn16
+		 (GuardNo
+	)
+
+happyReduce_22 = happySpecReduce_3 12# happyReduction_22
+happyReduction_22 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut18 happy_x_1 of { happy_var_1 -> 
+	case happyOut17 happy_x_3 of { happy_var_3 -> 
+	happyIn17
+		 (POr happy_var_1 happy_var_3
+	)}}
+
+happyReduce_23 = happySpecReduce_1 12# happyReduction_23
+happyReduction_23 happy_x_1
+	 =  case happyOut18 happy_x_1 of { happy_var_1 -> 
+	happyIn17
+		 (happy_var_1
+	)}
+
+happyReduce_24 = happySpecReduce_3 13# happyReduction_24
+happyReduction_24 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut19 happy_x_1 of { happy_var_1 -> 
+	case happyOut18 happy_x_3 of { happy_var_3 -> 
+	happyIn18
+		 (PListCons happy_var_1 happy_var_3
+	)}}
+
+happyReduce_25 = happySpecReduce_1 13# happyReduction_25
+happyReduction_25 happy_x_1
+	 =  case happyOut19 happy_x_1 of { happy_var_1 -> 
+	happyIn18
+		 (happy_var_1
+	)}
+
+happyReduce_26 = happySpecReduce_3 14# happyReduction_26
+happyReduction_26 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut5 happy_x_1 of { happy_var_1 -> 
+	case happyOut20 happy_x_2 of { happy_var_2 -> 
+	case happyOut23 happy_x_3 of { happy_var_3 -> 
+	happyIn19
+		 (PConsTop happy_var_1 happy_var_2 (reverse happy_var_3)
+	)}}}
+
+happyReduce_27 = happySpecReduce_1 14# happyReduction_27
+happyReduction_27 happy_x_1
+	 =  case happyOut20 happy_x_1 of { happy_var_1 -> 
+	happyIn19
+		 (happy_var_1
+	)}
+
+happyReduce_28 = happyReduce 4# 15# happyReduction_28
+happyReduction_28 (happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut25 happy_x_3 of { happy_var_3 -> 
+	happyIn20
+		 (PRec happy_var_3
+	) `HappyStk` happyRest}
+
+happyReduce_29 = happySpecReduce_2 15# happyReduction_29
+happyReduction_29 happy_x_2
+	happy_x_1
+	 =  happyIn20
+		 (PEmptyList
+	)
+
+happyReduce_30 = happySpecReduce_3 15# happyReduction_30
+happyReduction_30 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut22 happy_x_2 of { happy_var_2 -> 
+	happyIn20
+		 (PList happy_var_2
+	)}
+
+happyReduce_31 = happyReduce 5# 15# happyReduction_31
+happyReduction_31 (happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut21 happy_x_2 of { happy_var_2 -> 
+	case happyOut22 happy_x_4 of { happy_var_4 -> 
+	happyIn20
+		 (PTuple happy_var_2 happy_var_4
+	) `HappyStk` happyRest}}
+
+happyReduce_32 = happySpecReduce_1 15# happyReduction_32
+happyReduction_32 happy_x_1
+	 =  case happyOut6 happy_x_1 of { happy_var_1 -> 
+	happyIn20
+		 (PStr happy_var_1
+	)}
+
+happyReduce_33 = happySpecReduce_1 15# happyReduction_33
+happyReduction_33 happy_x_1
+	 =  case happyOut7 happy_x_1 of { happy_var_1 -> 
+	happyIn20
+		 (PInt happy_var_1
+	)}
+
+happyReduce_34 = happySpecReduce_1 15# happyReduction_34
+happyReduction_34 happy_x_1
+	 =  case happyOut5 happy_x_1 of { happy_var_1 -> 
+	happyIn20
+		 (PVar happy_var_1
+	)}
+
+happyReduce_35 = happySpecReduce_1 15# happyReduction_35
+happyReduction_35 happy_x_1
+	 =  happyIn20
+		 (PWild
+	)
+
+happyReduce_36 = happySpecReduce_3 15# happyReduction_36
+happyReduction_36 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut17 happy_x_2 of { happy_var_2 -> 
+	happyIn20
+		 (happy_var_2
+	)}
+
+happyReduce_37 = happySpecReduce_1 16# happyReduction_37
+happyReduction_37 happy_x_1
+	 =  case happyOut17 happy_x_1 of { happy_var_1 -> 
+	happyIn21
+		 (CommaPattern happy_var_1
+	)}
+
+happyReduce_38 = happySpecReduce_1 17# happyReduction_38
+happyReduction_38 happy_x_1
+	 =  case happyOut21 happy_x_1 of { happy_var_1 -> 
+	happyIn22
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_39 = happySpecReduce_3 17# happyReduction_39
+happyReduction_39 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut21 happy_x_1 of { happy_var_1 -> 
+	case happyOut22 happy_x_3 of { happy_var_3 -> 
+	happyIn22
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_40 = happySpecReduce_0 18# happyReduction_40
+happyReduction_40  =  happyIn23
+		 ([]
+	)
+
+happyReduce_41 = happySpecReduce_2 18# happyReduction_41
+happyReduction_41 happy_x_2
+	happy_x_1
+	 =  case happyOut23 happy_x_1 of { happy_var_1 -> 
+	case happyOut20 happy_x_2 of { happy_var_2 -> 
+	happyIn23
+		 (flip (:) happy_var_1 happy_var_2
+	)}}
+
+happyReduce_42 = happySpecReduce_3 19# happyReduction_42
+happyReduction_42 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut5 happy_x_1 of { happy_var_1 -> 
+	case happyOut17 happy_x_3 of { happy_var_3 -> 
+	happyIn24
+		 (FieldPattern happy_var_1 happy_var_3
+	)}}
+
+happyReduce_43 = happySpecReduce_0 20# happyReduction_43
+happyReduction_43  =  happyIn25
+		 ([]
+	)
+
+happyReduce_44 = happySpecReduce_1 20# happyReduction_44
+happyReduction_44 happy_x_1
+	 =  case happyOut24 happy_x_1 of { happy_var_1 -> 
+	happyIn25
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_45 = happySpecReduce_3 20# happyReduction_45
+happyReduction_45 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut24 happy_x_1 of { happy_var_1 -> 
+	case happyOut25 happy_x_3 of { happy_var_3 -> 
+	happyIn25
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_46 = happyReduce 7# 21# happyReduction_46
+happyReduction_46 (happy_x_7 `HappyStk`
+	happy_x_6 `HappyStk`
+	happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut27 happy_x_2 of { happy_var_2 -> 
+	case happyOut26 happy_x_4 of { happy_var_4 -> 
+	case happyOut26 happy_x_7 of { happy_var_7 -> 
+	happyIn26
+		 (EPi happy_var_2 happy_var_4 happy_var_7
+	) `HappyStk` happyRest}}}
+
+happyReduce_47 = happySpecReduce_3 21# happyReduction_47
+happyReduction_47 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut28 happy_x_1 of { happy_var_1 -> 
+	case happyOut26 happy_x_3 of { happy_var_3 -> 
+	happyIn26
+		 (EPiNoVar happy_var_1 happy_var_3
+	)}}
+
+happyReduce_48 = happySpecReduce_1 21# happyReduction_48
+happyReduction_48 happy_x_1
+	 =  case happyOut28 happy_x_1 of { happy_var_1 -> 
+	happyIn26
+		 (happy_var_1
+	)}
+
+happyReduce_49 = happySpecReduce_1 22# happyReduction_49
+happyReduction_49 happy_x_1
+	 =  case happyOut5 happy_x_1 of { happy_var_1 -> 
+	happyIn27
+		 (VVar happy_var_1
+	)}
+
+happyReduce_50 = happySpecReduce_1 22# happyReduction_50
+happyReduction_50 happy_x_1
+	 =  happyIn27
+		 (VWild
+	)
+
+happyReduce_51 = happyReduce 4# 23# happyReduction_51
+happyReduction_51 (happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut27 happy_x_2 of { happy_var_2 -> 
+	case happyOut28 happy_x_4 of { happy_var_4 -> 
+	happyIn28
+		 (EAbs happy_var_2 happy_var_4
+	) `HappyStk` happyRest}}
+
+happyReduce_52 = happyReduce 6# 23# happyReduction_52
+happyReduction_52 (happy_x_6 `HappyStk`
+	happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut30 happy_x_3 of { happy_var_3 -> 
+	case happyOut28 happy_x_6 of { happy_var_6 -> 
+	happyIn28
+		 (ELet happy_var_3 happy_var_6
+	) `HappyStk` happyRest}}
+
+happyReduce_53 = happyReduce 6# 23# happyReduction_53
+happyReduction_53 (happy_x_6 `HappyStk`
+	happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut26 happy_x_2 of { happy_var_2 -> 
+	case happyOut32 happy_x_5 of { happy_var_5 -> 
+	happyIn28
+		 (ECase happy_var_2 happy_var_5
+	) `HappyStk` happyRest}}
+
+happyReduce_54 = happyReduce 6# 23# happyReduction_54
+happyReduction_54 (happy_x_6 `HappyStk`
+	happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut26 happy_x_2 of { happy_var_2 -> 
+	case happyOut26 happy_x_4 of { happy_var_4 -> 
+	case happyOut28 happy_x_6 of { happy_var_6 -> 
+	happyIn28
+		 (EIf happy_var_2 happy_var_4 happy_var_6
+	) `HappyStk` happyRest}}}
+
+happyReduce_55 = happyReduce 5# 23# happyReduction_55
+happyReduction_55 (happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut34 happy_x_3 of { happy_var_3 -> 
+	case happyOut26 happy_x_4 of { happy_var_4 -> 
+	happyIn28
+		 (EDo (reverse happy_var_3) happy_var_4
+	) `HappyStk` happyRest}}
+
+happyReduce_56 = happySpecReduce_1 23# happyReduction_56
+happyReduction_56 happy_x_1
+	 =  case happyOut50 happy_x_1 of { happy_var_1 -> 
+	happyIn28
+		 (happy_var_1
+	)}
+
+happyReduce_57 = happySpecReduce_3 24# happyReduction_57
+happyReduction_57 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut5 happy_x_1 of { happy_var_1 -> 
+	case happyOut26 happy_x_3 of { happy_var_3 -> 
+	happyIn29
+		 (LetDef happy_var_1 happy_var_3
+	)}}
+
+happyReduce_58 = happySpecReduce_0 25# happyReduction_58
+happyReduction_58  =  happyIn30
+		 ([]
+	)
+
+happyReduce_59 = happySpecReduce_1 25# happyReduction_59
+happyReduction_59 happy_x_1
+	 =  case happyOut29 happy_x_1 of { happy_var_1 -> 
+	happyIn30
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_60 = happySpecReduce_3 25# happyReduction_60
+happyReduction_60 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut29 happy_x_1 of { happy_var_1 -> 
+	case happyOut30 happy_x_3 of { happy_var_3 -> 
+	happyIn30
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_61 = happyReduce 4# 26# happyReduction_61
+happyReduction_61 (happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut17 happy_x_1 of { happy_var_1 -> 
+	case happyOut16 happy_x_2 of { happy_var_2 -> 
+	case happyOut26 happy_x_4 of { happy_var_4 -> 
+	happyIn31
+		 (Case happy_var_1 happy_var_2 happy_var_4
+	) `HappyStk` happyRest}}}
+
+happyReduce_62 = happySpecReduce_0 27# happyReduction_62
+happyReduction_62  =  happyIn32
+		 ([]
+	)
+
+happyReduce_63 = happySpecReduce_1 27# happyReduction_63
+happyReduction_63 happy_x_1
+	 =  case happyOut31 happy_x_1 of { happy_var_1 -> 
+	happyIn32
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_64 = happySpecReduce_3 27# happyReduction_64
+happyReduction_64 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut31 happy_x_1 of { happy_var_1 -> 
+	case happyOut32 happy_x_3 of { happy_var_3 -> 
+	happyIn32
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_65 = happySpecReduce_3 28# happyReduction_65
+happyReduction_65 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut27 happy_x_1 of { happy_var_1 -> 
+	case happyOut26 happy_x_3 of { happy_var_3 -> 
+	happyIn33
+		 (BindVar happy_var_1 happy_var_3
+	)}}
+
+happyReduce_66 = happySpecReduce_1 28# happyReduction_66
+happyReduction_66 happy_x_1
+	 =  case happyOut26 happy_x_1 of { happy_var_1 -> 
+	happyIn33
+		 (BindNoVar happy_var_1
+	)}
+
+happyReduce_67 = happySpecReduce_0 29# happyReduction_67
+happyReduction_67  =  happyIn34
+		 ([]
+	)
+
+happyReduce_68 = happySpecReduce_3 29# happyReduction_68
+happyReduction_68 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut34 happy_x_1 of { happy_var_1 -> 
+	case happyOut33 happy_x_2 of { happy_var_2 -> 
+	happyIn34
+		 (flip (:) happy_var_1 happy_var_2
+	)}}
+
+happyReduce_69 = happySpecReduce_3 30# happyReduction_69
+happyReduction_69 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut35 happy_x_1 of { happy_var_1 -> 
+	case happyOut36 happy_x_3 of { happy_var_3 -> 
+	happyIn35
+		 (EBind happy_var_1 happy_var_3
+	)}}
+
+happyReduce_70 = happySpecReduce_3 30# happyReduction_70
+happyReduction_70 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut35 happy_x_1 of { happy_var_1 -> 
+	case happyOut36 happy_x_3 of { happy_var_3 -> 
+	happyIn35
+		 (EBindC happy_var_1 happy_var_3
+	)}}
+
+happyReduce_71 = happySpecReduce_1 30# happyReduction_71
+happyReduction_71 happy_x_1
+	 =  case happyOut36 happy_x_1 of { happy_var_1 -> 
+	happyIn35
+		 (happy_var_1
+	)}
+
+happyReduce_72 = happySpecReduce_3 31# happyReduction_72
+happyReduction_72 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut37 happy_x_1 of { happy_var_1 -> 
+	case happyOut36 happy_x_3 of { happy_var_3 -> 
+	happyIn36
+		 (EOr happy_var_1 happy_var_3
+	)}}
+
+happyReduce_73 = happySpecReduce_1 31# happyReduction_73
+happyReduction_73 happy_x_1
+	 =  case happyOut37 happy_x_1 of { happy_var_1 -> 
+	happyIn36
+		 (happy_var_1
+	)}
+
+happyReduce_74 = happySpecReduce_3 32# happyReduction_74
+happyReduction_74 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut38 happy_x_1 of { happy_var_1 -> 
+	case happyOut37 happy_x_3 of { happy_var_3 -> 
+	happyIn37
+		 (EAnd happy_var_1 happy_var_3
+	)}}
+
+happyReduce_75 = happySpecReduce_1 32# happyReduction_75
+happyReduction_75 happy_x_1
+	 =  case happyOut38 happy_x_1 of { happy_var_1 -> 
+	happyIn37
+		 (happy_var_1
+	)}
+
+happyReduce_76 = happySpecReduce_3 33# happyReduction_76
+happyReduction_76 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut39 happy_x_1 of { happy_var_1 -> 
+	case happyOut39 happy_x_3 of { happy_var_3 -> 
+	happyIn38
+		 (EEq happy_var_1 happy_var_3
+	)}}
+
+happyReduce_77 = happySpecReduce_3 33# happyReduction_77
+happyReduction_77 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut39 happy_x_1 of { happy_var_1 -> 
+	case happyOut39 happy_x_3 of { happy_var_3 -> 
+	happyIn38
+		 (ENe happy_var_1 happy_var_3
+	)}}
+
+happyReduce_78 = happySpecReduce_3 33# happyReduction_78
+happyReduction_78 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut39 happy_x_1 of { happy_var_1 -> 
+	case happyOut39 happy_x_3 of { happy_var_3 -> 
+	happyIn38
+		 (ELt happy_var_1 happy_var_3
+	)}}
+
+happyReduce_79 = happySpecReduce_3 33# happyReduction_79
+happyReduction_79 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut39 happy_x_1 of { happy_var_1 -> 
+	case happyOut39 happy_x_3 of { happy_var_3 -> 
+	happyIn38
+		 (ELe happy_var_1 happy_var_3
+	)}}
+
+happyReduce_80 = happySpecReduce_3 33# happyReduction_80
+happyReduction_80 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut39 happy_x_1 of { happy_var_1 -> 
+	case happyOut39 happy_x_3 of { happy_var_3 -> 
+	happyIn38
+		 (EGt happy_var_1 happy_var_3
+	)}}
+
+happyReduce_81 = happySpecReduce_3 33# happyReduction_81
+happyReduction_81 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut39 happy_x_1 of { happy_var_1 -> 
+	case happyOut39 happy_x_3 of { happy_var_3 -> 
+	happyIn38
+		 (EGe happy_var_1 happy_var_3
+	)}}
+
+happyReduce_82 = happySpecReduce_1 33# happyReduction_82
+happyReduction_82 happy_x_1
+	 =  case happyOut39 happy_x_1 of { happy_var_1 -> 
+	happyIn38
+		 (happy_var_1
+	)}
+
+happyReduce_83 = happySpecReduce_3 34# happyReduction_83
+happyReduction_83 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut40 happy_x_1 of { happy_var_1 -> 
+	case happyOut39 happy_x_3 of { happy_var_3 -> 
+	happyIn39
+		 (EListCons happy_var_1 happy_var_3
+	)}}
+
+happyReduce_84 = happySpecReduce_1 34# happyReduction_84
+happyReduction_84 happy_x_1
+	 =  case happyOut40 happy_x_1 of { happy_var_1 -> 
+	happyIn39
+		 (happy_var_1
+	)}
+
+happyReduce_85 = happySpecReduce_3 35# happyReduction_85
+happyReduction_85 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut40 happy_x_1 of { happy_var_1 -> 
+	case happyOut41 happy_x_3 of { happy_var_3 -> 
+	happyIn40
+		 (EAdd happy_var_1 happy_var_3
+	)}}
+
+happyReduce_86 = happySpecReduce_3 35# happyReduction_86
+happyReduction_86 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut40 happy_x_1 of { happy_var_1 -> 
+	case happyOut41 happy_x_3 of { happy_var_3 -> 
+	happyIn40
+		 (ESub happy_var_1 happy_var_3
+	)}}
+
+happyReduce_87 = happySpecReduce_1 35# happyReduction_87
+happyReduction_87 happy_x_1
+	 =  case happyOut41 happy_x_1 of { happy_var_1 -> 
+	happyIn40
+		 (happy_var_1
+	)}
+
+happyReduce_88 = happySpecReduce_3 36# happyReduction_88
+happyReduction_88 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut41 happy_x_1 of { happy_var_1 -> 
+	case happyOut42 happy_x_3 of { happy_var_3 -> 
+	happyIn41
+		 (EMul happy_var_1 happy_var_3
+	)}}
+
+happyReduce_89 = happySpecReduce_3 36# happyReduction_89
+happyReduction_89 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut41 happy_x_1 of { happy_var_1 -> 
+	case happyOut42 happy_x_3 of { happy_var_3 -> 
+	happyIn41
+		 (EDiv happy_var_1 happy_var_3
+	)}}
+
+happyReduce_90 = happySpecReduce_3 36# happyReduction_90
+happyReduction_90 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut41 happy_x_1 of { happy_var_1 -> 
+	case happyOut42 happy_x_3 of { happy_var_3 -> 
+	happyIn41
+		 (EMod happy_var_1 happy_var_3
+	)}}
+
+happyReduce_91 = happySpecReduce_1 36# happyReduction_91
+happyReduction_91 happy_x_1
+	 =  case happyOut42 happy_x_1 of { happy_var_1 -> 
+	happyIn41
+		 (happy_var_1
+	)}
+
+happyReduce_92 = happySpecReduce_2 37# happyReduction_92
+happyReduction_92 happy_x_2
+	happy_x_1
+	 =  case happyOut42 happy_x_2 of { happy_var_2 -> 
+	happyIn42
+		 (ENeg happy_var_2
+	)}
+
+happyReduce_93 = happySpecReduce_1 37# happyReduction_93
+happyReduction_93 happy_x_1
+	 =  case happyOut43 happy_x_1 of { happy_var_1 -> 
+	happyIn42
+		 (happy_var_1
+	)}
+
+happyReduce_94 = happySpecReduce_2 38# happyReduction_94
+happyReduction_94 happy_x_2
+	happy_x_1
+	 =  case happyOut43 happy_x_1 of { happy_var_1 -> 
+	case happyOut44 happy_x_2 of { happy_var_2 -> 
+	happyIn43
+		 (EApp happy_var_1 happy_var_2
+	)}}
+
+happyReduce_95 = happySpecReduce_1 38# happyReduction_95
+happyReduction_95 happy_x_1
+	 =  case happyOut44 happy_x_1 of { happy_var_1 -> 
+	happyIn43
+		 (happy_var_1
+	)}
+
+happyReduce_96 = happySpecReduce_3 39# happyReduction_96
+happyReduction_96 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut44 happy_x_1 of { happy_var_1 -> 
+	case happyOut5 happy_x_3 of { happy_var_3 -> 
+	happyIn44
+		 (EProj happy_var_1 happy_var_3
+	)}}
+
+happyReduce_97 = happySpecReduce_1 39# happyReduction_97
+happyReduction_97 happy_x_1
+	 =  case happyOut45 happy_x_1 of { happy_var_1 -> 
+	happyIn44
+		 (happy_var_1
+	)}
+
+happyReduce_98 = happyReduce 4# 40# happyReduction_98
+happyReduction_98 (happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut47 happy_x_3 of { happy_var_3 -> 
+	happyIn45
+		 (ERecType happy_var_3
+	) `HappyStk` happyRest}
+
+happyReduce_99 = happyReduce 4# 40# happyReduction_99
+happyReduction_99 (happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut49 happy_x_3 of { happy_var_3 -> 
+	happyIn45
+		 (ERec happy_var_3
+	) `HappyStk` happyRest}
+
+happyReduce_100 = happySpecReduce_2 40# happyReduction_100
+happyReduction_100 happy_x_2
+	happy_x_1
+	 =  happyIn45
+		 (EEmptyList
+	)
+
+happyReduce_101 = happySpecReduce_3 40# happyReduction_101
+happyReduction_101 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut51 happy_x_2 of { happy_var_2 -> 
+	happyIn45
+		 (EList happy_var_2
+	)}
+
+happyReduce_102 = happyReduce 5# 40# happyReduction_102
+happyReduction_102 (happy_x_5 `HappyStk`
+	happy_x_4 `HappyStk`
+	happy_x_3 `HappyStk`
+	happy_x_2 `HappyStk`
+	happy_x_1 `HappyStk`
+	happyRest)
+	 = case happyOut26 happy_x_2 of { happy_var_2 -> 
+	case happyOut51 happy_x_4 of { happy_var_4 -> 
+	happyIn45
+		 (ETuple happy_var_2 happy_var_4
+	) `HappyStk` happyRest}}
+
+happyReduce_103 = happySpecReduce_1 40# happyReduction_103
+happyReduction_103 happy_x_1
+	 =  case happyOut5 happy_x_1 of { happy_var_1 -> 
+	happyIn45
+		 (EVar happy_var_1
+	)}
+
+happyReduce_104 = happySpecReduce_1 40# happyReduction_104
+happyReduction_104 happy_x_1
+	 =  happyIn45
+		 (EType
+	)
+
+happyReduce_105 = happySpecReduce_1 40# happyReduction_105
+happyReduction_105 happy_x_1
+	 =  case happyOut6 happy_x_1 of { happy_var_1 -> 
+	happyIn45
+		 (EStr happy_var_1
+	)}
+
+happyReduce_106 = happySpecReduce_1 40# happyReduction_106
+happyReduction_106 happy_x_1
+	 =  case happyOut7 happy_x_1 of { happy_var_1 -> 
+	happyIn45
+		 (EInteger happy_var_1
+	)}
+
+happyReduce_107 = happySpecReduce_1 40# happyReduction_107
+happyReduction_107 happy_x_1
+	 =  case happyOut8 happy_x_1 of { happy_var_1 -> 
+	happyIn45
+		 (EDouble happy_var_1
+	)}
+
+happyReduce_108 = happySpecReduce_1 40# happyReduction_108
+happyReduction_108 happy_x_1
+	 =  happyIn45
+		 (EMeta
+	)
+
+happyReduce_109 = happySpecReduce_3 40# happyReduction_109
+happyReduction_109 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut26 happy_x_2 of { happy_var_2 -> 
+	happyIn45
+		 (happy_var_2
+	)}
+
+happyReduce_110 = happySpecReduce_3 41# happyReduction_110
+happyReduction_110 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut5 happy_x_1 of { happy_var_1 -> 
+	case happyOut26 happy_x_3 of { happy_var_3 -> 
+	happyIn46
+		 (FieldType happy_var_1 happy_var_3
+	)}}
+
+happyReduce_111 = happySpecReduce_0 42# happyReduction_111
+happyReduction_111  =  happyIn47
+		 ([]
+	)
+
+happyReduce_112 = happySpecReduce_1 42# happyReduction_112
+happyReduction_112 happy_x_1
+	 =  case happyOut46 happy_x_1 of { happy_var_1 -> 
+	happyIn47
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_113 = happySpecReduce_3 42# happyReduction_113
+happyReduction_113 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut46 happy_x_1 of { happy_var_1 -> 
+	case happyOut47 happy_x_3 of { happy_var_3 -> 
+	happyIn47
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_114 = happySpecReduce_3 43# happyReduction_114
+happyReduction_114 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut5 happy_x_1 of { happy_var_1 -> 
+	case happyOut26 happy_x_3 of { happy_var_3 -> 
+	happyIn48
+		 (FieldValue happy_var_1 happy_var_3
+	)}}
+
+happyReduce_115 = happySpecReduce_0 44# happyReduction_115
+happyReduction_115  =  happyIn49
+		 ([]
+	)
+
+happyReduce_116 = happySpecReduce_1 44# happyReduction_116
+happyReduction_116 happy_x_1
+	 =  case happyOut48 happy_x_1 of { happy_var_1 -> 
+	happyIn49
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_117 = happySpecReduce_3 44# happyReduction_117
+happyReduction_117 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut48 happy_x_1 of { happy_var_1 -> 
+	case happyOut49 happy_x_3 of { happy_var_3 -> 
+	happyIn49
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyReduce_118 = happySpecReduce_1 45# happyReduction_118
+happyReduction_118 happy_x_1
+	 =  case happyOut35 happy_x_1 of { happy_var_1 -> 
+	happyIn50
+		 (happy_var_1
+	)}
+
+happyReduce_119 = happySpecReduce_1 46# happyReduction_119
+happyReduction_119 happy_x_1
+	 =  case happyOut26 happy_x_1 of { happy_var_1 -> 
+	happyIn51
+		 ((:[]) happy_var_1
+	)}
+
+happyReduce_120 = happySpecReduce_3 46# happyReduction_120
+happyReduction_120 happy_x_3
+	happy_x_2
+	happy_x_1
+	 =  case happyOut26 happy_x_1 of { happy_var_1 -> 
+	case happyOut51 happy_x_3 of { happy_var_3 -> 
+	happyIn51
+		 ((:) happy_var_1 happy_var_3
+	)}}
+
+happyNewToken action sts stk [] =
+	happyDoAction 54# (error "reading EOF!") action sts stk []
+
+happyNewToken action sts stk (tk:tks) =
+	let cont i = happyDoAction i tk action sts stk tks in
+	case tk of {
+	PT _ (TS ";") -> cont 1#;
+	PT _ (TS ":") -> cont 2#;
+	PT _ (TS "{") -> cont 3#;
+	PT _ (TS "}") -> cont 4#;
+	PT _ (TS "=") -> cont 5#;
+	PT _ (TS "|") -> cont 6#;
+	PT _ (TS "||") -> cont 7#;
+	PT _ (TS "::") -> cont 8#;
+	PT _ (TS "(") -> cont 9#;
+	PT _ (TS ")") -> cont 10#;
+	PT _ (TS "[") -> cont 11#;
+	PT _ (TS "]") -> cont 12#;
+	PT _ (TS ",") -> cont 13#;
+	PT _ (TS "_") -> cont 14#;
+	PT _ (TS "->") -> cont 15#;
+	PT _ (TS "\\") -> cont 16#;
+	PT _ (TS "<-") -> cont 17#;
+	PT _ (TS ">>=") -> cont 18#;
+	PT _ (TS ">>") -> cont 19#;
+	PT _ (TS "&&") -> cont 20#;
+	PT _ (TS "==") -> cont 21#;
+	PT _ (TS "/=") -> cont 22#;
+	PT _ (TS "<") -> cont 23#;
+	PT _ (TS "<=") -> cont 24#;
+	PT _ (TS ">") -> cont 25#;
+	PT _ (TS ">=") -> cont 26#;
+	PT _ (TS "+") -> cont 27#;
+	PT _ (TS "-") -> cont 28#;
+	PT _ (TS "*") -> cont 29#;
+	PT _ (TS "/") -> cont 30#;
+	PT _ (TS "%") -> cont 31#;
+	PT _ (TS ".") -> cont 32#;
+	PT _ (TS "?") -> cont 33#;
+	PT _ (TS "Type") -> cont 34#;
+	PT _ (TS "case") -> cont 35#;
+	PT _ (TS "data") -> cont 36#;
+	PT _ (TS "derive") -> cont 37#;
+	PT _ (TS "do") -> cont 38#;
+	PT _ (TS "else") -> cont 39#;
+	PT _ (TS "if") -> cont 40#;
+	PT _ (TS "import") -> cont 41#;
+	PT _ (TS "in") -> cont 42#;
+	PT _ (TS "let") -> cont 43#;
+	PT _ (TS "of") -> cont 44#;
+	PT _ (TS "rec") -> cont 45#;
+	PT _ (TS "sig") -> cont 46#;
+	PT _ (TS "then") -> cont 47#;
+	PT _ (TS "where") -> cont 48#;
+	PT _ (TV happy_dollar_dollar) -> cont 49#;
+	PT _ (TL happy_dollar_dollar) -> cont 50#;
+	PT _ (TI happy_dollar_dollar) -> cont 51#;
+	PT _ (TD happy_dollar_dollar) -> cont 52#;
+	_ -> cont 53#;
+	_ -> happyError' (tk:tks)
+	}
+
+happyError_ tk tks = happyError' (tk:tks)
+
+happyThen :: () => Err a -> (a -> Err b) -> Err b
+happyThen = (thenM)
+happyReturn :: () => a -> Err a
+happyReturn = (returnM)
+happyThen1 m k tks = (thenM) m (\a -> k a tks)
+happyReturn1 :: () => a -> b -> Err a
+happyReturn1 = \a tks -> (returnM) a
+happyError' :: () => [Token] -> Err a
+happyError' = happyError
+
+pModule tks = happySomeParser where
+  happySomeParser = happyThen (happyParse 0# tks) (\x -> happyReturn (happyOut9 x))
+
+pExp tks = happySomeParser where
+  happySomeParser = happyThen (happyParse 1# tks) (\x -> happyReturn (happyOut26 x))
+
+happySeq = happyDontSeq
+
+returnM :: a -> Err a
+returnM = return
+
+thenM :: Err a -> (a -> Err b) -> Err b
+thenM = (>>=)
+
+happyError :: [Token] -> Err a
+happyError ts =
+  Bad $ "syntax error at " ++ tokenPos ts ++ if null ts then [] else (" before " ++ unwords (map prToken (take 4 ts)))
+
+myLexer = tokens
+{-# LINE 1 "GenericTemplate.hs" #-}
+{-# LINE 1 "<built-in>" #-}
+{-# LINE 1 "<command line>" #-}
+{-# LINE 1 "GenericTemplate.hs" #-}
+-- $Id$
+
+{-# LINE 28 "GenericTemplate.hs" #-}
+
+
+data Happy_IntList = HappyCons Int# Happy_IntList
+
+
+
+
+
+{-# LINE 49 "GenericTemplate.hs" #-}
+
+{-# LINE 59 "GenericTemplate.hs" #-}
+
+{-# LINE 68 "GenericTemplate.hs" #-}
+
+infixr 9 `HappyStk`
+data HappyStk a = HappyStk a (HappyStk a)
+
+-----------------------------------------------------------------------------
+-- starting the parse
+
+happyParse start_state = happyNewToken start_state notHappyAtAll notHappyAtAll
+
+-----------------------------------------------------------------------------
+-- Accepting the parse
+
+-- If the current token is 0#, it means we've just accepted a partial
+-- parse (a %partial parser).  We must ignore the saved token on the top of
+-- the stack in this case.
+happyAccept 0# tk st sts (_ `HappyStk` ans `HappyStk` _) =
+	happyReturn1 ans
+happyAccept j tk st sts (HappyStk ans _) = 
+	(happyTcHack j (happyTcHack st)) (happyReturn1 ans)
+
+-----------------------------------------------------------------------------
+-- Arrays only: do the next action
+
+
+
+happyDoAction i tk st
+	= {- nothing -}
+
+
+	  case action of
+		0#		  -> {- nothing -}
+				     happyFail i tk st
+		-1# 	  -> {- nothing -}
+				     happyAccept i tk st
+		n | (n <# (0# :: Int#)) -> {- nothing -}
+
+				     (happyReduceArr ! rule) i tk st
+				     where rule = (I# ((negateInt# ((n +# (1# :: Int#))))))
+		n		  -> {- nothing -}
+
+
+				     happyShift new_state i tk st
+				     where new_state = (n -# (1# :: Int#))
+   where off    = indexShortOffAddr happyActOffsets st
+	 off_i  = (off +# i)
+	 check  = if (off_i >=# (0# :: Int#))
+			then (indexShortOffAddr happyCheck off_i ==#  i)
+			else False
+ 	 action | check     = indexShortOffAddr happyTable off_i
+		| otherwise = indexShortOffAddr happyDefActions st
+
+{-# LINE 127 "GenericTemplate.hs" #-}
+
+
+indexShortOffAddr (HappyA# arr) off =
+#if __GLASGOW_HASKELL__ > 500
+	narrow16Int# i
+#elif __GLASGOW_HASKELL__ == 500
+	intToInt16# i
+#else
+	(i `iShiftL#` 16#) `iShiftRA#` 16#
+#endif
+  where
+#if __GLASGOW_HASKELL__ >= 503
+	i = word2Int# ((high `uncheckedShiftL#` 8#) `or#` low)
+#else
+	i = word2Int# ((high `shiftL#` 8#) `or#` low)
+#endif
+	high = int2Word# (ord# (indexCharOffAddr# arr (off' +# 1#)))
+	low  = int2Word# (ord# (indexCharOffAddr# arr off'))
+	off' = off *# 2#
+
+
+
+
+
+data HappyAddr = HappyA# Addr#
+
+
+
+
+-----------------------------------------------------------------------------
+-- HappyState data type (not arrays)
+
+{-# LINE 170 "GenericTemplate.hs" #-}
+
+-----------------------------------------------------------------------------
+-- Shifting a token
+
+happyShift new_state 0# tk st sts stk@(x `HappyStk` _) =
+     let i = (case unsafeCoerce# x of { (I# (i)) -> i }) in
+--     trace "shifting the error token" $
+     happyDoAction i tk new_state (HappyCons (st) (sts)) (stk)
+
+happyShift new_state i tk st sts stk =
+     happyNewToken new_state (HappyCons (st) (sts)) ((happyInTok (tk))`HappyStk`stk)
+
+-- happyReduce is specialised for the common cases.
+
+happySpecReduce_0 i fn 0# tk st sts stk
+     = happyFail 0# tk st sts stk
+happySpecReduce_0 nt fn j tk st@((action)) sts stk
+     = happyGoto nt j tk st (HappyCons (st) (sts)) (fn `HappyStk` stk)
+
+happySpecReduce_1 i fn 0# tk st sts stk
+     = happyFail 0# tk st sts stk
+happySpecReduce_1 nt fn j tk _ sts@((HappyCons (st@(action)) (_))) (v1`HappyStk`stk')
+     = let r = fn v1 in
+       happySeq r (happyGoto nt j tk st sts (r `HappyStk` stk'))
+
+happySpecReduce_2 i fn 0# tk st sts stk
+     = happyFail 0# tk st sts stk
+happySpecReduce_2 nt fn j tk _ (HappyCons (_) (sts@((HappyCons (st@(action)) (_))))) (v1`HappyStk`v2`HappyStk`stk')
+     = let r = fn v1 v2 in
+       happySeq r (happyGoto nt j tk st sts (r `HappyStk` stk'))
+
+happySpecReduce_3 i fn 0# tk st sts stk
+     = happyFail 0# tk st sts stk
+happySpecReduce_3 nt fn j tk _ (HappyCons (_) ((HappyCons (_) (sts@((HappyCons (st@(action)) (_))))))) (v1`HappyStk`v2`HappyStk`v3`HappyStk`stk')
+     = let r = fn v1 v2 v3 in
+       happySeq r (happyGoto nt j tk st sts (r `HappyStk` stk'))
+
+happyReduce k i fn 0# tk st sts stk
+     = happyFail 0# tk st sts stk
+happyReduce k nt fn j tk st sts stk
+     = case happyDrop (k -# (1# :: Int#)) sts of
+	 sts1@((HappyCons (st1@(action)) (_))) ->
+        	let r = fn stk in  -- it doesn't hurt to always seq here...
+       		happyDoSeq r (happyGoto nt j tk st1 sts1 r)
+
+happyMonadReduce k nt fn 0# tk st sts stk
+     = happyFail 0# tk st sts stk
+happyMonadReduce k nt fn j tk st sts stk =
+        happyThen1 (fn stk) (\r -> happyGoto nt j tk st1 sts1 (r `HappyStk` drop_stk))
+       where sts1@((HappyCons (st1@(action)) (_))) = happyDrop k (HappyCons (st) (sts))
+             drop_stk = happyDropStk k stk
+
+happyDrop 0# l = l
+happyDrop n (HappyCons (_) (t)) = happyDrop (n -# (1# :: Int#)) t
+
+happyDropStk 0# l = l
+happyDropStk n (x `HappyStk` xs) = happyDropStk (n -# (1#::Int#)) xs
+
+-----------------------------------------------------------------------------
+-- Moving to a new state after a reduction
+
+
+happyGoto nt j tk st = 
+   {- nothing -}
+   happyDoAction j tk new_state
+   where off    = indexShortOffAddr happyGotoOffsets st
+	 off_i  = (off +# nt)
+ 	 new_state = indexShortOffAddr happyTable off_i
+
+
+
+
+-----------------------------------------------------------------------------
+-- Error recovery (0# is the error token)
+
+-- parse error if we are in recovery and we fail again
+happyFail  0# tk old_st _ stk =
+--	trace "failing" $ 
+    	happyError_ tk
+
+{-  We don't need state discarding for our restricted implementation of
+    "error".  In fact, it can cause some bogus parses, so I've disabled it
+    for now --SDM
+
+-- discard a state
+happyFail  0# tk old_st (HappyCons ((action)) (sts)) 
+						(saved_tok `HappyStk` _ `HappyStk` stk) =
+--	trace ("discarding state, depth " ++ show (length stk))  $
+	happyDoAction 0# tk action sts ((saved_tok`HappyStk`stk))
+-}
+
+-- Enter error recovery: generate an error token,
+--                       save the old token and carry on.
+happyFail  i tk (action) sts stk =
+--      trace "entering error recovery" $
+	happyDoAction 0# tk action sts ( (unsafeCoerce# (I# (i))) `HappyStk` stk)
+
+-- Internal happy errors:
+
+notHappyAtAll = error "Internal Happy error\n"
+
+-----------------------------------------------------------------------------
+-- Hack to get the typechecker to accept our action functions
+
+
+happyTcHack :: Int# -> a -> a
+happyTcHack x y = y
+{-# INLINE happyTcHack #-}
+
+
+-----------------------------------------------------------------------------
+-- Seq-ing.  If the --strict flag is given, then Happy emits 
+--	happySeq = happyDoSeq
+-- otherwise it emits
+-- 	happySeq = happyDontSeq
+
+happyDoSeq, happyDontSeq :: a -> b -> b
+happyDoSeq   a b = a `seq` b
+happyDontSeq a b = b
+
+-----------------------------------------------------------------------------
+-- Don't inline any functions from the template.  GHC has a nasty habit
+-- of deciding to inline happyGoto everywhere, which increases the size of
+-- the generated parser quite a bit.
+
+
+{-# NOINLINE happyDoAction #-}
+{-# NOINLINE happyTable #-}
+{-# NOINLINE happyCheck #-}
+{-# NOINLINE happyActOffsets #-}
+{-# NOINLINE happyGotoOffsets #-}
+{-# NOINLINE happyDefActions #-}
+
+{-# NOINLINE happyShift #-}
+{-# NOINLINE happySpecReduce_0 #-}
+{-# NOINLINE happySpecReduce_1 #-}
+{-# NOINLINE happySpecReduce_2 #-}
+{-# NOINLINE happySpecReduce_3 #-}
+{-# NOINLINE happyReduce #-}
+{-# NOINLINE happyMonadReduce #-}
+{-# NOINLINE happyGoto #-}
+{-# NOINLINE happyFail #-}
+
+-- end of Happy Template.
diff --git a/src/Transfer/Syntax/Par.y b/src/Transfer/Syntax/Par.y
new file mode 100644
index 000000000..13c7800a8
--- /dev/null
+++ b/src/Transfer/Syntax/Par.y
@@ -0,0 +1,340 @@
+-- This Happy file was machine-generated by the BNF converter
+{
+{-# OPTIONS -fno-warn-incomplete-patterns -fno-warn-overlapping-patterns #-}
+module Transfer.Syntax.Par where
+import Transfer.Syntax.Abs
+import Transfer.Syntax.Lex
+import Transfer.ErrM
+}
+
+%name pModule Module
+%name pExp Exp
+
+-- no lexer declaration
+%monad { Err } { thenM } { returnM }
+%tokentype { Token }
+
+%token 
+ ';' { PT _ (TS ";") }
+ ':' { PT _ (TS ":") }
+ '{' { PT _ (TS "{") }
+ '}' { PT _ (TS "}") }
+ '=' { PT _ (TS "=") }
+ '|' { PT _ (TS "|") }
+ '||' { PT _ (TS "||") }
+ '::' { PT _ (TS "::") }
+ '(' { PT _ (TS "(") }
+ ')' { PT _ (TS ")") }
+ '[' { PT _ (TS "[") }
+ ']' { PT _ (TS "]") }
+ ',' { PT _ (TS ",") }
+ '_' { PT _ (TS "_") }
+ '->' { PT _ (TS "->") }
+ '\\' { PT _ (TS "\\") }
+ '<-' { PT _ (TS "<-") }
+ '>>=' { PT _ (TS ">>=") }
+ '>>' { PT _ (TS ">>") }
+ '&&' { PT _ (TS "&&") }
+ '==' { PT _ (TS "==") }
+ '/=' { PT _ (TS "/=") }
+ '<' { PT _ (TS "<") }
+ '<=' { PT _ (TS "<=") }
+ '>' { PT _ (TS ">") }
+ '>=' { PT _ (TS ">=") }
+ '+' { PT _ (TS "+") }
+ '-' { PT _ (TS "-") }
+ '*' { PT _ (TS "*") }
+ '/' { PT _ (TS "/") }
+ '%' { PT _ (TS "%") }
+ '.' { PT _ (TS ".") }
+ '?' { PT _ (TS "?") }
+ 'Type' { PT _ (TS "Type") }
+ 'case' { PT _ (TS "case") }
+ 'data' { PT _ (TS "data") }
+ 'derive' { PT _ (TS "derive") }
+ 'do' { PT _ (TS "do") }
+ 'else' { PT _ (TS "else") }
+ 'if' { PT _ (TS "if") }
+ 'import' { PT _ (TS "import") }
+ 'in' { PT _ (TS "in") }
+ 'let' { PT _ (TS "let") }
+ 'of' { PT _ (TS "of") }
+ 'rec' { PT _ (TS "rec") }
+ 'sig' { PT _ (TS "sig") }
+ 'then' { PT _ (TS "then") }
+ 'where' { PT _ (TS "where") }
+
+L_ident  { PT _ (TV $$) }
+L_quoted { PT _ (TL $$) }
+L_integ  { PT _ (TI $$) }
+L_doubl  { PT _ (TD $$) }
+L_err    { _ }
+
+
+%%
+
+Ident   :: { Ident }   : L_ident  { Ident $1 }
+String  :: { String }  : L_quoted { $1 }
+Integer :: { Integer } : L_integ  { (read $1) :: Integer }
+Double  :: { Double }  : L_doubl  { (read $1) :: Double }
+
+Module :: { Module }
+Module : ListImport ListDecl { Module (reverse $1) (reverse $2) } 
+
+
+Import :: { Import }
+Import : 'import' Ident { Import $2 } 
+
+
+ListImport :: { [Import] }
+ListImport : {- empty -} { [] } 
+  | ListImport Import ';' { flip (:) $1 $2 }
+
+
+Decl :: { Decl }
+Decl : 'data' Ident ':' Exp 'where' '{' ListConsDecl '}' { DataDecl $2 $4 $7 } 
+  | Ident ':' Exp { TypeDecl $1 $3 }
+  | Ident ListPattern Guard '=' Exp { ValueDecl $1 (reverse $2) $3 $5 }
+  | 'derive' Ident Ident { DeriveDecl $2 $3 }
+
+
+ListDecl :: { [Decl] }
+ListDecl : {- empty -} { [] } 
+  | ListDecl Decl ';' { flip (:) $1 $2 }
+
+
+ConsDecl :: { ConsDecl }
+ConsDecl : Ident ':' Exp { ConsDecl $1 $3 } 
+
+
+ListConsDecl :: { [ConsDecl] }
+ListConsDecl : {- empty -} { [] } 
+  | ConsDecl { (:[]) $1 }
+  | ConsDecl ';' ListConsDecl { (:) $1 $3 }
+
+
+Guard :: { Guard }
+Guard : '|' Exp1 { GuardExp $2 } 
+  | {- empty -} { GuardNo }
+
+
+Pattern :: { Pattern }
+Pattern : Pattern1 '||' Pattern { POr $1 $3 } 
+  | Pattern1 { $1 }
+
+
+Pattern1 :: { Pattern }
+Pattern1 : Pattern2 '::' Pattern1 { PListCons $1 $3 } 
+  | Pattern2 { $1 }
+
+
+Pattern2 :: { Pattern }
+Pattern2 : Ident Pattern3 ListPattern { PConsTop $1 $2 (reverse $3) } 
+  | Pattern3 { $1 }
+
+
+Pattern3 :: { Pattern }
+Pattern3 : 'rec' '{' ListFieldPattern '}' { PRec $3 } 
+  | '[' ']' { PEmptyList }
+  | '[' ListCommaPattern ']' { PList $2 }
+  | '(' CommaPattern ',' ListCommaPattern ')' { PTuple $2 $4 }
+  | String { PStr $1 }
+  | Integer { PInt $1 }
+  | Ident { PVar $1 }
+  | '_' { PWild }
+  | '(' Pattern ')' { $2 }
+
+
+CommaPattern :: { CommaPattern }
+CommaPattern : Pattern { CommaPattern $1 } 
+
+
+ListCommaPattern :: { [CommaPattern] }
+ListCommaPattern : CommaPattern { (:[]) $1 } 
+  | CommaPattern ',' ListCommaPattern { (:) $1 $3 }
+
+
+ListPattern :: { [Pattern] }
+ListPattern : {- empty -} { [] } 
+  | ListPattern Pattern3 { flip (:) $1 $2 }
+
+
+FieldPattern :: { FieldPattern }
+FieldPattern : Ident '=' Pattern { FieldPattern $1 $3 } 
+
+
+ListFieldPattern :: { [FieldPattern] }
+ListFieldPattern : {- empty -} { [] } 
+  | FieldPattern { (:[]) $1 }
+  | FieldPattern ';' ListFieldPattern { (:) $1 $3 }
+
+
+Exp :: { Exp }
+Exp : '(' VarOrWild ':' Exp ')' '->' Exp { EPi $2 $4 $7 } 
+  | Exp1 '->' Exp { EPiNoVar $1 $3 }
+  | Exp1 { $1 }
+
+
+VarOrWild :: { VarOrWild }
+VarOrWild : Ident { VVar $1 } 
+  | '_' { VWild }
+
+
+Exp1 :: { Exp }
+Exp1 : '\\' VarOrWild '->' Exp1 { EAbs $2 $4 } 
+  | 'let' '{' ListLetDef '}' 'in' Exp1 { ELet $3 $6 }
+  | 'case' Exp 'of' '{' ListCase '}' { ECase $2 $5 }
+  | 'if' Exp 'then' Exp 'else' Exp1 { EIf $2 $4 $6 }
+  | 'do' '{' ListBind Exp '}' { EDo (reverse $3) $4 }
+  | Exp2 { $1 }
+
+
+LetDef :: { LetDef }
+LetDef : Ident '=' Exp { LetDef $1 $3 } 
+
+
+ListLetDef :: { [LetDef] }
+ListLetDef : {- empty -} { [] } 
+  | LetDef { (:[]) $1 }
+  | LetDef ';' ListLetDef { (:) $1 $3 }
+
+
+Case :: { Case }
+Case : Pattern Guard '->' Exp { Case $1 $2 $4 } 
+
+
+ListCase :: { [Case] }
+ListCase : {- empty -} { [] } 
+  | Case { (:[]) $1 }
+  | Case ';' ListCase { (:) $1 $3 }
+
+
+Bind :: { Bind }
+Bind : VarOrWild '<-' Exp { BindVar $1 $3 } 
+  | Exp { BindNoVar $1 }
+
+
+ListBind :: { [Bind] }
+ListBind : {- empty -} { [] } 
+  | ListBind Bind ';' { flip (:) $1 $2 }
+
+
+Exp3 :: { Exp }
+Exp3 : Exp3 '>>=' Exp4 { EBind $1 $3 } 
+  | Exp3 '>>' Exp4 { EBindC $1 $3 }
+  | Exp4 { $1 }
+
+
+Exp4 :: { Exp }
+Exp4 : Exp5 '||' Exp4 { EOr $1 $3 } 
+  | Exp5 { $1 }
+
+
+Exp5 :: { Exp }
+Exp5 : Exp6 '&&' Exp5 { EAnd $1 $3 } 
+  | Exp6 { $1 }
+
+
+Exp6 :: { Exp }
+Exp6 : Exp7 '==' Exp7 { EEq $1 $3 } 
+  | Exp7 '/=' Exp7 { ENe $1 $3 }
+  | Exp7 '<' Exp7 { ELt $1 $3 }
+  | Exp7 '<=' Exp7 { ELe $1 $3 }
+  | Exp7 '>' Exp7 { EGt $1 $3 }
+  | Exp7 '>=' Exp7 { EGe $1 $3 }
+  | Exp7 { $1 }
+
+
+Exp7 :: { Exp }
+Exp7 : Exp8 '::' Exp7 { EListCons $1 $3 } 
+  | Exp8 { $1 }
+
+
+Exp8 :: { Exp }
+Exp8 : Exp8 '+' Exp9 { EAdd $1 $3 } 
+  | Exp8 '-' Exp9 { ESub $1 $3 }
+  | Exp9 { $1 }
+
+
+Exp9 :: { Exp }
+Exp9 : Exp9 '*' Exp10 { EMul $1 $3 } 
+  | Exp9 '/' Exp10 { EDiv $1 $3 }
+  | Exp9 '%' Exp10 { EMod $1 $3 }
+  | Exp10 { $1 }
+
+
+Exp10 :: { Exp }
+Exp10 : '-' Exp10 { ENeg $2 } 
+  | Exp11 { $1 }
+
+
+Exp11 :: { Exp }
+Exp11 : Exp11 Exp12 { EApp $1 $2 } 
+  | Exp12 { $1 }
+
+
+Exp12 :: { Exp }
+Exp12 : Exp12 '.' Ident { EProj $1 $3 } 
+  | Exp13 { $1 }
+
+
+Exp13 :: { Exp }
+Exp13 : 'sig' '{' ListFieldType '}' { ERecType $3 } 
+  | 'rec' '{' ListFieldValue '}' { ERec $3 }
+  | '[' ']' { EEmptyList }
+  | '[' ListExp ']' { EList $2 }
+  | '(' Exp ',' ListExp ')' { ETuple $2 $4 }
+  | Ident { EVar $1 }
+  | 'Type' { EType }
+  | String { EStr $1 }
+  | Integer { EInteger $1 }
+  | Double { EDouble $1 }
+  | '?' { EMeta }
+  | '(' Exp ')' { $2 }
+
+
+FieldType :: { FieldType }
+FieldType : Ident ':' Exp { FieldType $1 $3 } 
+
+
+ListFieldType :: { [FieldType] }
+ListFieldType : {- empty -} { [] } 
+  | FieldType { (:[]) $1 }
+  | FieldType ';' ListFieldType { (:) $1 $3 }
+
+
+FieldValue :: { FieldValue }
+FieldValue : Ident '=' Exp { FieldValue $1 $3 } 
+
+
+ListFieldValue :: { [FieldValue] }
+ListFieldValue : {- empty -} { [] } 
+  | FieldValue { (:[]) $1 }
+  | FieldValue ';' ListFieldValue { (:) $1 $3 }
+
+
+Exp2 :: { Exp }
+Exp2 : Exp3 { $1 } 
+
+
+ListExp :: { [Exp] }
+ListExp : Exp { (:[]) $1 } 
+  | Exp ',' ListExp { (:) $1 $3 }
+
+
+
+{
+
+returnM :: a -> Err a
+returnM = return
+
+thenM :: Err a -> (a -> Err b) -> Err b
+thenM = (>>=)
+
+happyError :: [Token] -> Err a
+happyError ts =
+  Bad $ "syntax error at " ++ tokenPos ts ++ if null ts then [] else (" before " ++ unwords (map prToken (take 4 ts)))
+
+myLexer = tokens
+}
+
diff --git a/src/Transfer/Syntax/Print.hs b/src/Transfer/Syntax/Print.hs
new file mode 100644
index 000000000..50164477d
--- /dev/null
+++ b/src/Transfer/Syntax/Print.hs
@@ -0,0 +1,206 @@
+{-# OPTIONS_GHC -fglasgow-exts #-}
+module Transfer.Syntax.Print where
+
+-- pretty-printer generated by the BNF converter
+
+import Transfer.Syntax.Abs
+import Data.Char
+import Data.List (intersperse)
+
+-- the top-level printing method
+printTree :: Print a => a -> String
+printTree = render . prt 0
+
+type Doc = [ShowS] -> [ShowS]
+
+doc :: ShowS -> Doc
+doc = (:)
+
+render :: Doc -> String
+render d = rend 0 (map ($ "") $ d []) "" where
+  rend i ss = case ss of
+    "["      :ts -> showChar '[' . rend i ts
+    "("      :ts -> showChar '(' . rend i ts
+    "{"      :ts -> showChar '{' . new (i+1) . rend (i+1) ts
+    "}" : ";":ts -> new (i-1) . space "}" . showChar ';' . new (i-1) . rend (i-1) ts
+    "}"      :ts -> new (i-1) . showChar '}' . new (i-1) . rend (i-1) ts
+    ";"      :ts -> showChar ';' . new i . rend i ts
+    t  : "," :ts -> showString t . space "," . rend i ts
+    t  : ")" :ts -> showString t . showChar ')' . rend i ts
+    t  : "]" :ts -> showString t . showChar ']' . rend i ts
+    t        :ts -> space t . rend i ts
+    _            -> id
+  new i   = showChar '\n' . replicateS (2*i) (showChar ' ') . dropWhile isSpace
+  space t = showString t . (\s -> if null s then "" else (' ':s))
+
+parenth :: Doc -> Doc
+parenth ss = doc (showChar '(') . ss . doc (showChar ')')
+
+concatS :: [ShowS] -> ShowS
+concatS = foldr (.) id
+
+concatD :: [Doc] -> Doc
+concatD = foldr (.) id
+
+unwordsD :: [Doc] -> Doc
+unwordsD = concatD . intersperse (doc (showChar ' '))
+
+replicateS :: Int -> ShowS -> ShowS
+replicateS n f = concatS (replicate n f)
+
+-- the printer class does the job
+class Print a where
+  prt :: Int -> a -> Doc
+
+instance Print Char where
+  prt _ s = doc (showChar '\'' . mkEsc '\'' s . showChar '\'')
+
+instance Print String where
+  prt _ s = doc (showChar '"' . concatS (map (mkEsc '"') s) . showChar '"')
+
+mkEsc :: Char -> Char -> ShowS
+mkEsc q s = case s of
+  _ | s == q -> showChar '\\' . showChar s
+  '\\'-> showString "\\\\"
+  '\n' -> showString "\\n"
+  '\t' -> showString "\\t"
+  _ -> showChar s
+
+prPrec :: Int -> Int -> Doc -> Doc
+prPrec i j = if j<i then parenth else id
+
+
+instance Print Integer where
+  prt _ x = doc (shows x)
+
+
+instance Print Double where
+  prt _ x = doc (shows x)
+
+
+instance Print (Tree c) where
+  prt _i e = case e of
+    Module imports decls -> prPrec _i 0 (concatD [prt 0 imports , prt 0 decls])
+    Import i -> prPrec _i 0 (concatD [doc (showString "import") , prt 0 i])
+    DataDecl i exp consdecls -> prPrec _i 0 (concatD [doc (showString "data") , prt 0 i , doc (showString ":") , prt 0 exp , doc (showString "where") , doc (showString "{") , prt 0 consdecls , doc (showString "}")])
+    TypeDecl i exp -> prPrec _i 0 (concatD [prt 0 i , doc (showString ":") , prt 0 exp])
+    ValueDecl i patterns guard exp -> prPrec _i 0 (concatD [prt 0 i , prt 0 patterns , prt 0 guard , doc (showString "=") , prt 0 exp])
+    DeriveDecl i0 i1 -> prPrec _i 0 (concatD [doc (showString "derive") , prt 0 i0 , prt 0 i1])
+    ConsDecl i exp -> prPrec _i 0 (concatD [prt 0 i , doc (showString ":") , prt 0 exp])
+    GuardExp exp -> prPrec _i 0 (concatD [doc (showString "|") , prt 1 exp])
+    GuardNo  -> prPrec _i 0 (concatD [])
+    POr pattern0 pattern1 -> prPrec _i 0 (concatD [prt 1 pattern0 , doc (showString "||") , prt 0 pattern1])
+    PListCons pattern0 pattern1 -> prPrec _i 1 (concatD [prt 2 pattern0 , doc (showString "::") , prt 1 pattern1])
+    PConsTop i pattern patterns -> prPrec _i 2 (concatD [prt 0 i , prt 3 pattern , prt 0 patterns])
+    PCons i patterns -> prPrec _i 3 (concatD [doc (showString "(") , prt 0 i , prt 0 patterns , doc (showString ")")])
+    PRec fieldpatterns -> prPrec _i 3 (concatD [doc (showString "rec") , doc (showString "{") , prt 0 fieldpatterns , doc (showString "}")])
+    PEmptyList  -> prPrec _i 3 (concatD [doc (showString "[") , doc (showString "]")])
+    PList commapatterns -> prPrec _i 3 (concatD [doc (showString "[") , prt 0 commapatterns , doc (showString "]")])
+    PTuple commapattern commapatterns -> prPrec _i 3 (concatD [doc (showString "(") , prt 0 commapattern , doc (showString ",") , prt 0 commapatterns , doc (showString ")")])
+    PStr str -> prPrec _i 3 (concatD [prt 0 str])
+    PInt n -> prPrec _i 3 (concatD [prt 0 n])
+    PVar i -> prPrec _i 3 (concatD [prt 0 i])
+    PWild  -> prPrec _i 3 (concatD [doc (showString "_")])
+    CommaPattern pattern -> prPrec _i 0 (concatD [prt 0 pattern])
+    FieldPattern i pattern -> prPrec _i 0 (concatD [prt 0 i , doc (showString "=") , prt 0 pattern])
+    EPi varorwild exp0 exp1 -> prPrec _i 0 (concatD [doc (showString "(") , prt 0 varorwild , doc (showString ":") , prt 0 exp0 , doc (showString ")") , doc (showString "->") , prt 0 exp1])
+    EPiNoVar exp0 exp1 -> prPrec _i 0 (concatD [prt 1 exp0 , doc (showString "->") , prt 0 exp1])
+    EAbs varorwild exp -> prPrec _i 1 (concatD [doc (showString "\\") , prt 0 varorwild , doc (showString "->") , prt 1 exp])
+    ELet letdefs exp -> prPrec _i 1 (concatD [doc (showString "let") , doc (showString "{") , prt 0 letdefs , doc (showString "}") , doc (showString "in") , prt 1 exp])
+    ECase exp cases -> prPrec _i 1 (concatD [doc (showString "case") , prt 0 exp , doc (showString "of") , doc (showString "{") , prt 0 cases , doc (showString "}")])
+    EIf exp0 exp1 exp2 -> prPrec _i 1 (concatD [doc (showString "if") , prt 0 exp0 , doc (showString "then") , prt 0 exp1 , doc (showString "else") , prt 1 exp2])
+    EDo binds exp -> prPrec _i 1 (concatD [doc (showString "do") , doc (showString "{") , prt 0 binds , prt 0 exp , doc (showString "}")])
+    EBind exp0 exp1 -> prPrec _i 3 (concatD [prt 3 exp0 , doc (showString ">>=") , prt 4 exp1])
+    EBindC exp0 exp1 -> prPrec _i 3 (concatD [prt 3 exp0 , doc (showString ">>") , prt 4 exp1])
+    EOr exp0 exp1 -> prPrec _i 4 (concatD [prt 5 exp0 , doc (showString "||") , prt 4 exp1])
+    EAnd exp0 exp1 -> prPrec _i 5 (concatD [prt 6 exp0 , doc (showString "&&") , prt 5 exp1])
+    EEq exp0 exp1 -> prPrec _i 6 (concatD [prt 7 exp0 , doc (showString "==") , prt 7 exp1])
+    ENe exp0 exp1 -> prPrec _i 6 (concatD [prt 7 exp0 , doc (showString "/=") , prt 7 exp1])
+    ELt exp0 exp1 -> prPrec _i 6 (concatD [prt 7 exp0 , doc (showString "<") , prt 7 exp1])
+    ELe exp0 exp1 -> prPrec _i 6 (concatD [prt 7 exp0 , doc (showString "<=") , prt 7 exp1])
+    EGt exp0 exp1 -> prPrec _i 6 (concatD [prt 7 exp0 , doc (showString ">") , prt 7 exp1])
+    EGe exp0 exp1 -> prPrec _i 6 (concatD [prt 7 exp0 , doc (showString ">=") , prt 7 exp1])
+    EListCons exp0 exp1 -> prPrec _i 7 (concatD [prt 8 exp0 , doc (showString "::") , prt 7 exp1])
+    EAdd exp0 exp1 -> prPrec _i 8 (concatD [prt 8 exp0 , doc (showString "+") , prt 9 exp1])
+    ESub exp0 exp1 -> prPrec _i 8 (concatD [prt 8 exp0 , doc (showString "-") , prt 9 exp1])
+    EMul exp0 exp1 -> prPrec _i 9 (concatD [prt 9 exp0 , doc (showString "*") , prt 10 exp1])
+    EDiv exp0 exp1 -> prPrec _i 9 (concatD [prt 9 exp0 , doc (showString "/") , prt 10 exp1])
+    EMod exp0 exp1 -> prPrec _i 9 (concatD [prt 9 exp0 , doc (showString "%") , prt 10 exp1])
+    ENeg exp -> prPrec _i 10 (concatD [doc (showString "-") , prt 10 exp])
+    EApp exp0 exp1 -> prPrec _i 11 (concatD [prt 11 exp0 , prt 12 exp1])
+    EProj exp i -> prPrec _i 12 (concatD [prt 12 exp , doc (showString ".") , prt 0 i])
+    ERecType fieldtypes -> prPrec _i 13 (concatD [doc (showString "sig") , doc (showString "{") , prt 0 fieldtypes , doc (showString "}")])
+    ERec fieldvalues -> prPrec _i 13 (concatD [doc (showString "rec") , doc (showString "{") , prt 0 fieldvalues , doc (showString "}")])
+    EEmptyList  -> prPrec _i 13 (concatD [doc (showString "[") , doc (showString "]")])
+    EList exps -> prPrec _i 13 (concatD [doc (showString "[") , prt 0 exps , doc (showString "]")])
+    ETuple exp exps -> prPrec _i 13 (concatD [doc (showString "(") , prt 0 exp , doc (showString ",") , prt 0 exps , doc (showString ")")])
+    EVar i -> prPrec _i 13 (concatD [prt 0 i])
+    EType  -> prPrec _i 13 (concatD [doc (showString "Type")])
+    EStr str -> prPrec _i 13 (concatD [prt 0 str])
+    EInteger n -> prPrec _i 13 (concatD [prt 0 n])
+    EDouble d -> prPrec _i 13 (concatD [prt 0 d])
+    EMeta  -> prPrec _i 13 (concatD [doc (showString "?")])
+    VVar i -> prPrec _i 0 (concatD [prt 0 i])
+    VWild  -> prPrec _i 0 (concatD [doc (showString "_")])
+    LetDef i exp -> prPrec _i 0 (concatD [prt 0 i , doc (showString "=") , prt 0 exp])
+    Case pattern guard exp -> prPrec _i 0 (concatD [prt 0 pattern , prt 0 guard , doc (showString "->") , prt 0 exp])
+    BindVar varorwild exp -> prPrec _i 0 (concatD [prt 0 varorwild , doc (showString "<-") , prt 0 exp])
+    BindNoVar exp -> prPrec _i 0 (concatD [prt 0 exp])
+    FieldType i exp -> prPrec _i 0 (concatD [prt 0 i , doc (showString ":") , prt 0 exp])
+    FieldValue i exp -> prPrec _i 0 (concatD [prt 0 i , doc (showString "=") , prt 0 exp])
+    Ident str -> prPrec _i 0 (doc (showString str))
+
+instance Print [Import] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [Decl] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [ConsDecl] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [CommaPattern] where
+  prt _ es = case es of
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ",") , prt 0 xs])
+instance Print [Pattern] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   x:xs -> (concatD [prt 3 x , prt 0 xs])
+instance Print [FieldPattern] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [LetDef] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [Case] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [Bind] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [FieldType] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [FieldValue] where
+  prt _ es = case es of
+   [] -> (concatD [])
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ";") , prt 0 xs])
+instance Print [Exp] where
+  prt _ es = case es of
+   [x] -> (concatD [prt 0 x])
+   x:xs -> (concatD [prt 0 x , doc (showString ",") , prt 0 xs])
diff --git a/src/Transfer/Syntax/ResolveLayout.hs b/src/Transfer/Syntax/ResolveLayout.hs
new file mode 100644
index 000000000..9d7ab607a
--- /dev/null
+++ b/src/Transfer/Syntax/ResolveLayout.hs
@@ -0,0 +1,29 @@
+module Main where
+
+import System.Environment (getArgs)
+
+import Transfer.Syntax.Lex
+import Transfer.Syntax.Layout
+
+prTokens :: [Token] -> String
+prTokens = prTokens_ 1 1
+  where 
+  prTokens_ _ _ [] = ""
+  prTokens_ l c (t@(PT (Pn _ l' c') _):ts) = 
+      replicate (l'-l) '\n' 
+       ++ replicate (if l' == l then c'-c else c'-1) ' '
+       ++ s ++ prTokens_ l' (c'+length s) ts
+    where s = prToken t
+--  prTokens_ l c (Err p:ts) = 
+
+layout :: String -> String
+layout s = prTokens ts'
+--           ++ "\n" ++ show ts'
+  where ts = tokens s
+        ts' = resolveLayout True ts
+
+main :: IO ()
+main = do args <- getArgs
+          case args of
+            [] -> getContents >>= putStrLn . layout
+            fs -> mapM_ (\f -> readFile f >>= putStrLn . layout) fs
diff --git a/src/Transfer/Syntax/Skel.hs b/src/Transfer/Syntax/Skel.hs
new file mode 100644
index 000000000..b2376478b
--- /dev/null
+++ b/src/Transfer/Syntax/Skel.hs
@@ -0,0 +1,200 @@
+module Transfer.Syntax.Skel where
+
+-- Haskell module generated by the BNF converter
+
+import Transfer.Syntax.Abs
+import Transfer.ErrM
+type Result = Err String
+
+failure :: Show a => a -> Result
+failure x = Bad $ "Undefined case: " ++ show x
+
+transTree :: Tree c -> Result
+transTree t = case t of
+  Module imports decls -> failure t
+  Import i -> failure t
+  DataDecl i exp consdecls -> failure t
+  TypeDecl i exp -> failure t
+  ValueDecl i patterns guard exp -> failure t
+  DeriveDecl i0 i1 -> failure t
+  ConsDecl i exp -> failure t
+  GuardExp exp -> failure t
+  GuardNo  -> failure t
+  POr pattern0 pattern1 -> failure t
+  PListCons pattern0 pattern1 -> failure t
+  PConsTop i pattern patterns -> failure t
+  PCons i patterns -> failure t
+  PRec fieldpatterns -> failure t
+  PEmptyList  -> failure t
+  PList commapatterns -> failure t
+  PTuple commapattern commapatterns -> failure t
+  PStr str -> failure t
+  PInt n -> failure t
+  PVar i -> failure t
+  PWild  -> failure t
+  CommaPattern pattern -> failure t
+  FieldPattern i pattern -> failure t
+  EPi varorwild exp0 exp1 -> failure t
+  EPiNoVar exp0 exp1 -> failure t
+  EAbs varorwild exp -> failure t
+  ELet letdefs exp -> failure t
+  ECase exp cases -> failure t
+  EIf exp0 exp1 exp2 -> failure t
+  EDo binds exp -> failure t
+  EBind exp0 exp1 -> failure t
+  EBindC exp0 exp1 -> failure t
+  EOr exp0 exp1 -> failure t
+  EAnd exp0 exp1 -> failure t
+  EEq exp0 exp1 -> failure t
+  ENe exp0 exp1 -> failure t
+  ELt exp0 exp1 -> failure t
+  ELe exp0 exp1 -> failure t
+  EGt exp0 exp1 -> failure t
+  EGe exp0 exp1 -> failure t
+  EListCons exp0 exp1 -> failure t
+  EAdd exp0 exp1 -> failure t
+  ESub exp0 exp1 -> failure t
+  EMul exp0 exp1 -> failure t
+  EDiv exp0 exp1 -> failure t
+  EMod exp0 exp1 -> failure t
+  ENeg exp -> failure t
+  EApp exp0 exp1 -> failure t
+  EProj exp i -> failure t
+  ERecType fieldtypes -> failure t
+  ERec fieldvalues -> failure t
+  EEmptyList  -> failure t
+  EList exps -> failure t
+  ETuple exp exps -> failure t
+  EVar i -> failure t
+  EType  -> failure t
+  EStr str -> failure t
+  EInteger n -> failure t
+  EDouble d -> failure t
+  EMeta  -> failure t
+  VVar i -> failure t
+  VWild  -> failure t
+  LetDef i exp -> failure t
+  Case pattern guard exp -> failure t
+  BindVar varorwild exp -> failure t
+  BindNoVar exp -> failure t
+  FieldType i exp -> failure t
+  FieldValue i exp -> failure t
+  Ident str -> failure t
+
+transModule :: Module -> Result
+transModule t = case t of
+  Module imports decls -> failure t
+
+transImport :: Import -> Result
+transImport t = case t of
+  Import i -> failure t
+
+transDecl :: Decl -> Result
+transDecl t = case t of
+  DataDecl i exp consdecls -> failure t
+  TypeDecl i exp -> failure t
+  ValueDecl i patterns guard exp -> failure t
+  DeriveDecl i0 i1 -> failure t
+
+transConsDecl :: ConsDecl -> Result
+transConsDecl t = case t of
+  ConsDecl i exp -> failure t
+
+transGuard :: Guard -> Result
+transGuard t = case t of
+  GuardExp exp -> failure t
+  GuardNo  -> failure t
+
+transPattern :: Pattern -> Result
+transPattern t = case t of
+  POr pattern0 pattern1 -> failure t
+  PListCons pattern0 pattern1 -> failure t
+  PConsTop i pattern patterns -> failure t
+  PCons i patterns -> failure t
+  PRec fieldpatterns -> failure t
+  PEmptyList  -> failure t
+  PList commapatterns -> failure t
+  PTuple commapattern commapatterns -> failure t
+  PStr str -> failure t
+  PInt n -> failure t
+  PVar i -> failure t
+  PWild  -> failure t
+
+transCommaPattern :: CommaPattern -> Result
+transCommaPattern t = case t of
+  CommaPattern pattern -> failure t
+
+transFieldPattern :: FieldPattern -> Result
+transFieldPattern t = case t of
+  FieldPattern i pattern -> failure t
+
+transExp :: Exp -> Result
+transExp t = case t of
+  EPi varorwild exp0 exp1 -> failure t
+  EPiNoVar exp0 exp1 -> failure t
+  EAbs varorwild exp -> failure t
+  ELet letdefs exp -> failure t
+  ECase exp cases -> failure t
+  EIf exp0 exp1 exp2 -> failure t
+  EDo binds exp -> failure t
+  EBind exp0 exp1 -> failure t
+  EBindC exp0 exp1 -> failure t
+  EOr exp0 exp1 -> failure t
+  EAnd exp0 exp1 -> failure t
+  EEq exp0 exp1 -> failure t
+  ENe exp0 exp1 -> failure t
+  ELt exp0 exp1 -> failure t
+  ELe exp0 exp1 -> failure t
+  EGt exp0 exp1 -> failure t
+  EGe exp0 exp1 -> failure t
+  EListCons exp0 exp1 -> failure t
+  EAdd exp0 exp1 -> failure t
+  ESub exp0 exp1 -> failure t
+  EMul exp0 exp1 -> failure t
+  EDiv exp0 exp1 -> failure t
+  EMod exp0 exp1 -> failure t
+  ENeg exp -> failure t
+  EApp exp0 exp1 -> failure t
+  EProj exp i -> failure t
+  ERecType fieldtypes -> failure t
+  ERec fieldvalues -> failure t
+  EEmptyList  -> failure t
+  EList exps -> failure t
+  ETuple exp exps -> failure t
+  EVar i -> failure t
+  EType  -> failure t
+  EStr str -> failure t
+  EInteger n -> failure t
+  EDouble d -> failure t
+  EMeta  -> failure t
+
+transVarOrWild :: VarOrWild -> Result
+transVarOrWild t = case t of
+  VVar i -> failure t
+  VWild  -> failure t
+
+transLetDef :: LetDef -> Result
+transLetDef t = case t of
+  LetDef i exp -> failure t
+
+transCase :: Case -> Result
+transCase t = case t of
+  Case pattern guard exp -> failure t
+
+transBind :: Bind -> Result
+transBind t = case t of
+  BindVar varorwild exp -> failure t
+  BindNoVar exp -> failure t
+
+transFieldType :: FieldType -> Result
+transFieldType t = case t of
+  FieldType i exp -> failure t
+
+transFieldValue :: FieldValue -> Result
+transFieldValue t = case t of
+  FieldValue i exp -> failure t
+
+transIdent :: Ident -> Result
+transIdent t = case t of
+  Ident str -> failure t
+
diff --git a/src/Transfer/Syntax/Syntax.cf b/src/Transfer/Syntax/Syntax.cf
new file mode 100644
index 000000000..7429e34f9
--- /dev/null
+++ b/src/Transfer/Syntax/Syntax.cf
@@ -0,0 +1,147 @@
+entrypoints Module, Exp ;
+
+layout "let", "where", "of","rec", "sig", "do" ;
+layout stop "in" ;
+layout toplevel ;
+
+comment "--" ;
+comment "{-" "-}" ;
+
+Module. Module ::= [Import] [Decl] ;
+
+Import. Import ::= "import" Ident ;
+-- FIXME: this is terminator to ensure that the pretty printer
+-- produces a semicolon after the last import. This could cause
+-- problems in a program which only does imports and uses layout syntax.
+terminator Import ";" ;
+
+DataDecl.     Decl ::= "data" Ident ":" Exp "where" "{" [ConsDecl] "}" ;
+TypeDecl.     Decl ::= Ident ":" Exp ;
+ValueDecl.    Decl ::= Ident [Pattern] Guard "=" Exp ;
+DeriveDecl.   Decl ::= "derive" Ident Ident ;
+terminator Decl ";" ;
+
+ConsDecl. ConsDecl ::= Ident ":" Exp ;
+separator ConsDecl ";" ;
+
+GuardExp.  Guard ::= "|" Exp1 ;
+GuardNo.   Guard ::= ;
+
+-- Disjunctive patterns.
+POr.      Pattern ::= Pattern1 "||" Pattern ;
+
+-- List constructor patterns
+PListCons. Pattern1 ::= Pattern2 "::" Pattern1 ;
+
+-- Hack: constructor applied to at least one pattern
+-- this is to separate it from variable patterns
+PConsTop. Pattern2 ::= Ident Pattern3 [Pattern] ;
+
+-- Real constructor pattern
+internal PCons.    Pattern3 ::= "(" Ident [Pattern] ")" ;
+
+-- Record patterns
+PRec.     Pattern3 ::= "rec" "{" [FieldPattern] "}";
+
+-- List patterns
+PEmptyList. Pattern3 ::= "[" "]" ;
+PList.      Pattern3 ::= "[" [CommaPattern] "]" ;
+
+-- Tuple patterns
+PTuple.   Pattern3 ::= "(" CommaPattern "," [CommaPattern] ")" ;
+
+-- hack to allow a different [Pattern] from the one defined
+-- for constructor patterns
+CommaPattern. CommaPattern ::= Pattern ;
+separator nonempty CommaPattern "," ;
+
+-- String literal patterns
+PStr.     Pattern3 ::= String ;
+-- Integer literal patterns
+PInt.     Pattern3 ::= Integer ;
+-- Variable patterns
+PVar.     Pattern3 ::= Ident ;
+-- Wild card patterns
+PWild.    Pattern3 ::= "_" ;
+
+coercions Pattern 3 ;
+
+[].  [Pattern] ::= ;
+(:). [Pattern] ::= Pattern3 [Pattern] ;
+
+FieldPattern. FieldPattern ::= Ident "=" Pattern ;
+separator FieldPattern ";" ;
+
+-- Function types have precedence < 1 to keep the
+-- "->" from conflicting with the "->" after guards
+EPi.       Exp ::= "(" VarOrWild ":" Exp ")" "->" Exp ;
+EPiNoVar.  Exp ::= Exp1 "->" Exp ;
+VVar.      VarOrWild ::= Ident ;
+VWild.     VarOrWild ::= "_" ;
+
+EAbs.      Exp1 ::= "\\" VarOrWild "->" Exp1 ;
+ELet.      Exp1 ::= "let" "{" [LetDef] "}" "in" Exp1 ;
+LetDef.    LetDef ::= Ident "=" Exp ;
+separator LetDef ";" ;
+ECase.     Exp1 ::= "case" Exp "of" "{" [Case] "}" ;
+Case.     Case ::= Pattern Guard "->" Exp ;
+separator Case ";" ;
+EIf.       Exp1 ::= "if" Exp "then" Exp "else" Exp1 ;
+EDo.       Exp1 ::= "do" "{" [Bind] Exp "}" ;
+BindVar.   Bind ::= VarOrWild "<-" Exp ;
+BindNoVar. Bind ::= Exp ;
+terminator Bind ";" ;
+
+EBind.     Exp3 ::= Exp3 ">>=" Exp4 ;
+EBindC.    Exp3 ::= Exp3 ">>"  Exp4 ;
+
+EOr.       Exp4 ::= Exp5 "||" Exp4 ;
+
+EAnd.      Exp5 ::= Exp6 "&&" Exp5 ;
+
+EEq.       Exp6 ::= Exp7 "==" Exp7 ;
+ENe.       Exp6 ::= Exp7 "/=" Exp7 ;
+ELt.       Exp6 ::= Exp7 "<"  Exp7 ;
+ELe.       Exp6 ::= Exp7 "<=" Exp7 ;
+EGt.       Exp6 ::= Exp7 ">"  Exp7 ;
+EGe.       Exp6 ::= Exp7 ">=" Exp7 ;
+
+EListCons. Exp7 ::= Exp8 "::" Exp7 ;
+
+EAdd.      Exp8 ::= Exp8 "+" Exp9 ;
+ESub.      Exp8 ::= Exp8 "-" Exp9 ;
+
+EMul.      Exp9 ::= Exp9 "*" Exp10 ;
+EDiv.      Exp9 ::= Exp9 "/" Exp10 ;
+EMod.      Exp9 ::= Exp9 "%" Exp10 ;
+
+ENeg.      Exp10 ::= "-" Exp10 ;
+
+EApp.      Exp11 ::= Exp11 Exp12 ;
+
+EProj.     Exp12 ::= Exp12 "." Ident ;
+
+ERecType.  Exp13 ::= "sig" "{" [FieldType] "}" ;
+FieldType. FieldType  ::= Ident ":" Exp ;
+separator FieldType ";" ;
+
+ERec.      Exp13 ::= "rec" "{" [FieldValue] "}" ;
+FieldValue.FieldValue ::= Ident "=" Exp ;
+separator FieldValue ";" ;
+
+EEmptyList.Exp13 ::= "[" "]" ;
+EList.     Exp13 ::= "[" [Exp] "]" ;
+
+-- n-tuple, where n>=2
+ETuple.    Exp13 ::= "(" Exp "," [Exp] ")" ;
+
+EVar.      Exp13 ::= Ident ;
+EType.     Exp13 ::= "Type" ;
+EStr.      Exp13 ::= String ;
+EInteger.  Exp13 ::= Integer ;
+EDouble.   Exp13 ::= Double ;
+EMeta.     Exp13 ::= "?" ;
+
+coercions Exp 13 ;
+
+separator nonempty Exp "," ;
diff --git a/src/Transfer/Syntax/Test.hs b/src/Transfer/Syntax/Test.hs
new file mode 100644
index 000000000..3f5fab7ad
--- /dev/null
+++ b/src/Transfer/Syntax/Test.hs
@@ -0,0 +1,58 @@
+-- automatically generated by BNF Converter
+module Main where
+
+
+import IO ( stdin, hGetContents )
+import System ( getArgs, getProgName )
+
+import Transfer.Syntax.Lex
+import Transfer.Syntax.Par
+import Transfer.Syntax.Skel
+import Transfer.Syntax.Print
+import Transfer.Syntax.Abs
+import Transfer.Syntax.Layout
+
+
+
+import Transfer.ErrM
+
+type ParseFun a = [Token] -> Err a
+
+myLLexer = resolveLayout True . myLexer
+
+type Verbosity = Int
+
+putStrV :: Verbosity -> String -> IO ()
+putStrV v s = if v > 1 then putStrLn s else return ()
+
+runFile :: (Print a, Show a) => Verbosity -> ParseFun a -> FilePath -> IO ()
+runFile v p f = putStrLn f >> readFile f >>= run v p
+
+run :: (Print a, Show a) => Verbosity -> ParseFun a -> String -> IO ()
+run v p s = let ts = myLLexer s in case p ts of
+           Bad s    -> do putStrLn "\nParse              Failed...\n"
+                          putStrV v "Tokens:"
+                          putStrV v $ show ts
+                          putStrLn s
+           Ok  tree -> do putStrLn "\nParse Successful!"
+                          showTree v tree
+
+
+
+showTree :: (Show a, Print a) => Int -> a -> IO ()
+showTree v tree
+ = do
+      putStrV v $ "\n[Abstract Syntax]\n\n" ++ show tree
+      putStrV v $ "\n[Linearized tree]\n\n" ++ printTree tree
+
+main :: IO ()
+main = do args <- getArgs
+          case args of
+            [] -> hGetContents stdin >>= run 2 pModule
+            "-s":fs -> mapM_ (runFile 0 pModule) fs
+            fs -> mapM_ (runFile 2 pModule) fs
+
+
+
+
+
diff --git a/src/Transfer/SyntaxToCore.hs b/src/Transfer/SyntaxToCore.hs
new file mode 100644
index 000000000..32796eb50
--- /dev/null
+++ b/src/Transfer/SyntaxToCore.hs
@@ -0,0 +1,766 @@
+-- | Translate to the core language
+module Transfer.SyntaxToCore where
+
+import Transfer.Syntax.Abs
+import Transfer.Syntax.Print
+
+import Control.Monad.State
+import Data.List
+import Data.Maybe
+import qualified Data.Set as Set
+import Data.Set (Set)
+import qualified Data.Map as Map
+import Data.Map (Map)
+import Data.Monoid
+
+import Debug.Trace
+
+type C a = State CState a
+
+data CState = CState {
+                      nextVar :: Integer,
+                      nextMeta :: Integer
+                     }
+
+
+
+declsToCore :: [Decl] -> [Decl]
+declsToCore m = evalState (declsToCore_ m) newState
+
+declsToCore_ :: [Decl] -> C [Decl]
+declsToCore_ =     deriveDecls
+               >>> desugar 
+               >>> compilePattDecls 
+               >>> numberMetas
+               >>> replaceCons 
+               >>> expandOrPatts
+               >>> optimize
+
+optimize :: [Decl] -> C [Decl]
+optimize =     uniqueVars
+           >>> removeUselessMatch
+           >>> betaReduce
+
+newState :: CState
+newState = CState {
+                   nextVar = 0,
+                   nextMeta = 0
+                  }
+
+
+--
+-- * Make all variable names unique
+--
+
+uniqueVars :: [Decl] -> C [Decl]
+uniqueVars = mapM (f Map.empty)
+  where
+  f :: Map Ident Ident -> Tree a -> C (Tree a)
+  f ss t = case t of
+                ELet ds _ ->
+                    do
+                    let vs = Set.toList (letDefBinds ds)
+                    vs' <- freshIdents (length vs)
+                    let ss' = addToSubstEnv (zip vs vs') ss
+                    composOpM (f ss') t
+                LetDef i e -> 
+                    case Map.lookup i ss of 
+                         Nothing -> fail $ "let var " ++ printTree i ++ " not renamed"
+                         Just i' -> liftM (LetDef i') (f ss e)
+                Case p _ _ -> 
+                    do
+                    let vs = Set.toList (binds p)
+                    vs' <- freshIdents (length vs)
+                    let ss' = addToSubstEnv (zip vs vs') ss
+                    composOpM (f ss') t
+                EAbs (VVar i) e -> 
+                    do
+                    i' <- freshIdent
+                    let ss' = addToSubstEnv [(i,i')] ss
+                    liftM (EAbs (VVar i')) (f ss' e)
+                EPi (VVar i) e1 e2 -> 
+                    do
+                    i' <- freshIdent
+                    let ss' = addToSubstEnv [(i,i')] ss
+                    liftM2 (EPi (VVar i')) (f ss e1) (f ss' e2)
+                EVar i -> return $ case Map.lookup i ss of
+                                                        Nothing -> t -- constructor
+                                                        Just i' -> EVar i'
+                PVar i -> return $ case Map.lookup i ss of
+                                                        Nothing -> t -- constructor
+                                                        Just i' -> PVar i'
+                _ -> composOpM (f ss) t
+       where addToSubstEnv bs m = foldr (\ (k,v) -> Map.insert k v) m bs
+
+--
+-- * Number meta variables
+--
+
+numberMetas :: [Decl] -> C [Decl]
+numberMetas = mapM f
+  where
+  f :: Tree a -> C (Tree a)
+  f t = case t of
+               EMeta -> do
+                        st <- get
+                        put (st { nextMeta = nextMeta st + 1})
+                        return $ EVar $ Ident $ "?" ++ show (nextMeta st) -- FIXME: hack
+               _ -> composOpM f t
+
+
+--
+-- * Pattern equations
+--
+
+compilePattDecls :: [Decl] -> C [Decl]
+compilePattDecls [] = return []
+compilePattDecls (d@(ValueDecl x _ _ _):ds) =
+    do
+    let (xs,rest) = span (isValueDecl x) ds
+    d <- mergeDecls (d:xs)
+    rs <- compilePattDecls rest
+    return (d:rs)
+compilePattDecls (d:ds) = liftM (d:) (compilePattDecls ds)
+
+-- | Checks if a declaration is a value declaration
+--   of the given identifier.
+isValueDecl :: Ident -> Decl -> Bool
+isValueDecl x (ValueDecl y _ _ _) = x == y
+isValueDecl _ _ = False
+
+-- | Take a non-empty list of pattern equations with guards 
+--   for the same function, and produce a single declaration.
+mergeDecls :: [Decl] -> C Decl
+mergeDecls ds@(ValueDecl x p _ _:_)
+    = do let cs = [ (ps,g,rhs) | ValueDecl _ ps g rhs <- ds ]
+             (pss,_,_) = unzip3 cs
+             n = length p
+         when (not (all ((== n) . length) pss))
+              $ fail $ "Pattern count mismatch for " ++ printTree x
+         vs <- freshIdents n
+         let cases = map (\ (ps,g,rhs) -> Case (mkPTuple ps) g rhs) cs
+             c = ECase (mkETuple (map EVar vs)) cases
+             f = foldr (EAbs . VVar) c vs
+         return $ ValueDecl x [] GuardNo f
+
+--
+-- * Derived function definitions
+--
+
+deriveDecls :: [Decl] -> C [Decl]
+deriveDecls ds = liftM concat (mapM der ds)
+  where 
+  ts = dataTypes ds
+  der (DeriveDecl (Ident f) t) = 
+      case lookup f derivators of
+           Just d -> d t k cs
+           _ -> fail $ "Don't know how to derive " ++ f
+      where (k,cs) = getDataType ts t
+  der d = return [d]
+
+type Derivator = Ident -> Exp -> [(Ident,Exp)] -> C [Decl]
+
+derivators :: [(String, Derivator)]
+derivators = [
+              ("Compos", deriveCompos),
+              ("Show", deriveShow),
+              ("Eq", deriveEq),
+              ("Ord", deriveOrd)
+             ]
+
+--
+-- * Deriving instances of Compos
+--
+
+deriveCompos :: Derivator
+deriveCompos t@(Ident ts) k cs = 
+    do
+    co <- deriveComposOp t k cs
+    cf <- deriveComposFold t k cs
+    let [c] = argumentTypes k -- FIXME: what if there is not exactly one argument to t?
+        d = Ident ("compos_"++ts)
+        dt = apply (var "Compos") [c, EVar t]
+        r = ERec [FieldValue (Ident "composOp") co,
+                  FieldValue (Ident "composFold") cf]
+    return [TypeDecl d dt, ValueDecl d [] GuardNo r]
+
+deriveComposOp :: Ident -> Exp -> [(Ident,Exp)] -> C Exp
+deriveComposOp t k cs = 
+    do
+    f <- freshIdent
+    x <- freshIdent
+    let e = EVar
+        pv = VVar
+        infixr 3 \->
+        (\->) = EAbs
+        mkCase ci ct = 
+            do
+            vars <- freshIdents (arity ct)
+            -- FIXME: the type argument to f is wrong if the constructor
+            -- has a dependent type
+            -- FIXME: make a special case for lists?
+            let rec v at = case at of
+                                   EApp (EVar t') c | t' == t -> apply (e f) [c, e v]
+                                   _ -> e v
+                calls = zipWith rec vars (argumentTypes ct)
+            return $ Case (PCons ci (map PVar vars)) gtrue (apply (e ci) calls)
+    cases <- mapM (uncurry mkCase) cs
+    let cases' = cases ++ [Case PWild gtrue (e x)]
+    fb <- abstract (arity k) $ const $ pv f \-> pv x \-> ECase (e x) cases'
+    return fb
+
+deriveComposFold :: Ident -> Exp -> [(Ident,Exp)] -> C Exp
+deriveComposFold t k cs = 
+    do
+    f <- freshIdent
+    x <- freshIdent
+    b <- freshIdent
+    r <- freshIdent
+    let e = EVar
+        pv = VVar
+        infixr 3 \->
+        (\->) = EAbs
+        mkCase ci ct = 
+            do
+            vars <- freshIdents (arity ct)
+            -- FIXME: the type argument to f is wrong if the constructor
+            -- has a dependent type
+            -- FIXME: make a special case for lists?
+            let rec v at = case at of
+                                   EApp (EVar t') c | t' == t -> apply (e f) [c, e v]
+                                   _ -> e v
+                calls = zipWith rec vars (argumentTypes ct)
+                z = EProj (e r) (Ident "mzero")
+                p = EProj (e r) (Ident "mplus")
+                joinCalls [] = z
+                joinCalls cs = foldr1 (\x y -> apply p [x,y]) cs
+            return $ Case (PCons ci (map PVar vars)) gtrue (joinCalls calls)
+    cases <- mapM (uncurry mkCase) cs
+    let cases' = cases ++ [Case PWild gtrue (e x)]
+    fb <- abstract (arity k) $ const $ pv f \-> pv x \-> ECase (e x) cases'
+    return $ VWild \-> pv r \-> fb
+
+--
+-- * Deriving instances of Show
+--
+
+deriveShow :: Derivator
+deriveShow t k cs = fail $ "derive Show not implemented"
+
+--
+-- * Deriving instances of Eq
+--
+
+-- FIXME: how do we require Eq instances for all
+-- constructor arguments?
+
+deriveEq :: Derivator
+deriveEq t@(Ident tn) k cs = 
+    do
+    dt <- abstractType ats (EApp (var "Eq") . apply (EVar t))
+    f <- mkEq
+    r <- abstract (arity k) (\_ -> ERec [FieldValue (Ident "eq") f])
+    return [TypeDecl d dt, ValueDecl d [] GuardNo r]
+  where
+  ats = argumentTypes k
+  d = Ident ("eq_"++tn)
+  mkEq = do
+         x <- freshIdent
+         y <- freshIdent
+         cases <- mapM (uncurry mkEqCase) cs
+         let fc = Case PWild gtrue false
+         abstract 2 (\es -> ECase (mkETuple es) (cases++[fc]))
+  mkEqCase c ct = 
+      do
+      let n = arity ct
+          ts = argumentTypes ct
+      vs1 <- freshIdents n
+      vs2 <- freshIdents n
+      let pr = mkPTuple [PCons c (map PVar vs1), PCons c (map PVar vs2)]
+          eqs = concat $ zipWith3 child_eq ts vs1 vs2
+          rhs [] = true
+          rhs xs = foldr1 EAnd xs
+      return $ Case pr gtrue (rhs eqs)
+  -- FIXME: hack: this returns a list to skip testing type arguments.
+  child_eq EType _ _ = []
+  child_eq t x y = [apply (var "eq") [t,eq_dict t, EVar x, EVar y]]
+  -- FIXME: this is a hack to at least support Tree types
+  eq_dict (EApp (EVar t') _) 
+      | t' == t = apply (EVar d) (replicate (arity k) EMeta)
+  eq_dict (EVar (Ident x)) 
+      | x `elem` ["String","Integer","Double"] = var ("eq_"++x)
+  eq_dict _ = EMeta
+
+--
+-- * Deriving instances of Ord
+--
+
+deriveOrd :: Derivator
+deriveOrd t k cs = fail $ "derive Ord not implemented"
+
+--
+-- * Constructor patterns and applications.
+--
+
+type DataConsInfo = Map Ident Int
+
+consArities :: [Decl] -> DataConsInfo
+consArities ds = Map.fromList [ (c, arity t) | DataDecl _ _ cs <- ds, 
+                                               ConsDecl c t <- cs ]
+
+-- | Get the arity of a function type.
+arity :: Exp -> Int
+arity = length . argumentTypes
+
+-- | Get the argument type of a function type. Note that
+--   the returned types may contains free variables 
+--   which should be bound to the values of earlier arguments.
+argumentTypes :: Exp -> [Exp]
+argumentTypes e = case e of
+                      EPi _ t e' -> t : argumentTypes e'
+                      EPiNoVar t e' -> t : argumentTypes e'
+                      _ -> []
+
+-- | Fix up constructor patterns and applications.
+replaceCons :: [Decl] -> C [Decl]
+replaceCons ds = mapM (f cs) ds
+  where
+  cs = consArities ds 
+  f :: DataConsInfo -> Tree a -> C (Tree a)
+  f cs x = case x of
+        -- get rid of the PConsTop hack
+        PConsTop id p1 ps -> f cs (PCons id (p1:ps))
+        -- replace patterns C where C is a constructor with (C)
+        PVar id | isCons id -> return $ PCons id []
+        -- don't eta-expand overshadowed constructors
+        EAbs (VVar id) e | isCons id -> 
+                  liftM (EAbs (VVar id)) (f (Map.delete id cs) e)
+        EPi (VVar id) t e | isCons id -> 
+                  liftM2 (EPi (VVar id)) (f cs t) (f (Map.delete id cs) e)
+        -- eta-expand constructors. betaReduce will remove any beta 
+        -- redexes produced here.
+        EVar id | isCons id -> do
+                               let Just n = Map.lookup id cs
+                               abstract n (apply x)
+        _ -> composOpM (f cs) x
+    where isCons = (`Map.member` cs)
+
+--
+-- * Do simple beta reductions.
+--
+
+betaReduce :: [Decl] -> C [Decl]
+betaReduce = return . map f
+ where
+ f :: Tree a -> Tree a
+ f t = case t of
+              EApp e1 e2 -> 
+                  case (f e1, f e2) of
+                       (EAbs (VVar x) b, e) | countFreeOccur x b == 1 -> f (subst x e b)
+                       (e1',e2') -> EApp e1' e2'
+              _ -> composOp f t
+
+--
+-- * Remove useless pattern matching and variable binding.
+--
+
+removeUselessMatch :: [Decl] -> C [Decl]
+removeUselessMatch = return . map f
+ where
+ f :: Tree a -> Tree a
+ f x = case x of
+       EAbs (VVar x) b ->
+           case f b of
+                    -- replace \x -> case x of { y | True -> e } with \y -> e,
+                    -- if x is not free in e
+                    ECase (EVar x') [Case (PVar y) g e]
+                          | x' == x && isTrueGuard g && not (x `isFreeIn` e)
+                              -> f (EAbs (VVar y) e)
+                    -- replace unused variable in lambda with wild card
+                    e | not (x `isFreeIn` e) -> f (EAbs VWild e)
+                    e -> EAbs (VVar x) e
+       -- replace unused variable in pi with wild card
+       EPi (VVar x) t e ->
+           let e' = f e
+               v = if not (x `isFreeIn` e') then VWild else VVar x
+            in EPi v (f t) e'
+       -- replace unused variables in case patterns with wild cards
+       Case p (GuardExp g) e ->
+           let g' = f g
+               e' = f e
+               used = freeVars g' `Set.union` freeVars e'
+               p' = f (removeUnusedVarPatts used p)
+            in Case p' (GuardExp g') e'
+       -- for value declarations without patterns, compilePattDecls 
+       -- generates pattern matching on the empty record, remove these
+       ECase (ERec []) [Case (PRec []) g e] | isTrueGuard g -> f e
+       -- if the pattern matching is on a single field of a record expression
+       -- with only one field, there is no need to wrap it in a record
+       ECase (ERec [FieldValue x e]) cs | all (isSingleFieldPattern x) (casePatterns cs)
+              -> f (ECase e [ Case p g r | Case (PRec [FieldPattern _ p]) g r <- cs ])
+       -- for all fields in record matching where all patterns for the field just
+       -- bind variables, substitute in the field value (if it is a variable)
+       -- in the guards and right hand sides.
+       ECase (ERec fs) cs | all isPRec (casePatterns cs) ->
+           let h (FieldValue f v@(EVar _):fs) xs
+                   | all (onlyBindsFieldToVariable f) (casePatterns xs)
+                          = h fs (map (inlineField f v) xs)
+               h (f:fs) xs = let (fs',xs') = h fs xs in (f:fs',xs')
+               h [] xs = ([],xs)
+               inlineField f v (Case (PRec fps) (GuardExp g) e) = 
+                   let p' = PRec [fp | fp@(FieldPattern f' _) <- fps, f' /= f]
+                       ss = zip (fieldPatternVars f fps) (repeat v)
+                    in Case p' (GuardExp (substs ss g)) (substs ss e)
+               (fs',cs') = h fs cs
+               x' = ECase (ERec fs') cs'
+            in if length fs' < length fs then f x' else composOp f x'
+       -- Remove wild card patterns in record patterns
+       PRec fps -> PRec (map f (fps \\ wildcards))
+          where wildcards = [fp | fp@(FieldPattern _ PWild) <- fps]
+       _ -> composOp f x
+
+isTrueGuard :: Guard -> Bool
+isTrueGuard (GuardExp (EVar (Ident "True"))) = True
+isTrueGuard GuardNo = True
+isTrueGuard _ = False
+
+removeUnusedVarPatts :: Set Ident -> Tree a -> Tree a
+removeUnusedVarPatts keep x = case x of
+                    PVar id | not (id `Set.member` keep) -> PWild
+                    _ -> composOp (removeUnusedVarPatts keep) x    
+
+isSingleFieldPattern :: Ident -> Pattern -> Bool
+isSingleFieldPattern x p = case p of
+                                PRec [FieldPattern y _] -> x == y
+                                _ -> False
+
+casePatterns :: [Case] -> [Pattern]
+casePatterns cs = [p | Case p _ _ <- cs]
+
+isPRec :: Pattern -> Bool
+isPRec (PRec _) = True
+isPRec _ = False
+
+-- | Checks if given pattern is a record pattern, and matches the field
+--   with just a variable, with a wild card, or not at all.
+onlyBindsFieldToVariable :: Ident -> Pattern -> Bool
+onlyBindsFieldToVariable f (PRec fps) = 
+    all isVar [p | FieldPattern f' p <- fps, f == f']
+  where isVar (PVar _) = True
+        isVar PWild = True
+        isVar _ = False
+onlyBindsFieldToVariable _ _ = False
+
+fieldPatternVars :: Ident -> [FieldPattern] -> [Ident]
+fieldPatternVars f fps = [p | FieldPattern f' (PVar p) <- fps, f == f']
+
+--
+-- * Expand disjunctive patterns.
+--
+
+expandOrPatts :: [Decl] -> C [Decl]
+expandOrPatts = return . map f
+ where
+ f :: Tree a -> Tree a
+ f x = case x of
+              ECase e cs -> ECase (f e) (concatMap (expandCase . f) cs)
+              _          -> composOp f x
+
+expandCase :: Case -> [Case]
+expandCase (Case p g e) = [ Case p' g e | p' <- expandPatt p ]
+
+expandPatt :: Pattern -> [Pattern]
+expandPatt p = case p of
+                    POr p1 p2  -> expandPatt p1 ++ expandPatt p2
+                    PCons i ps -> map (PCons i) $ expandPatts ps
+                    PRec fps   -> let (fs,ps) = unzip $ fromPRec fps
+                                      fpss = map (zip fs) (expandPatts ps)
+                                   in map (PRec . toPRec) fpss
+                    _ -> [p]
+
+expandPatts :: [Pattern] -> [[Pattern]]
+expandPatts [] = [[]]
+expandPatts (p:ps) = [ p':ps' | p' <- expandPatt p, ps' <- expandPatts ps]
+
+--
+-- * Remove simple syntactic sugar.
+--
+
+desugar :: [Decl] -> C [Decl]
+desugar = return . map f
+ where
+ f :: Tree a -> Tree a
+ f x = case x of
+              PListCons p1 p2    -> pListCons        <| p1   <| p2
+              PEmptyList         -> pList []
+              PList xs           -> pList [f p | CommaPattern p <- xs]
+              PTuple x xs          -> mkPTuple [f p | CommaPattern p <- (x:xs)]
+              GuardNo            -> gtrue
+              EIf exp0 exp1 exp2 -> ifBool           <| exp0 <| exp1 <| exp2
+              EDo bs e           -> mkDo (map f bs) (f e)
+              BindNoVar exp0     -> BindVar VWild    <| exp0
+              EPiNoVar exp0 exp1 -> EPi VWild        <| exp0 <| exp1
+              EBind exp0 exp1    -> appBind          <| exp0 <| exp1
+              EBindC exp0 exp1   -> appBindC         <| exp0 <| exp1
+              EOr  exp0 exp1     -> orBool           <| exp0 <| exp1
+              EAnd exp0 exp1     -> andBool          <| exp0 <| exp1
+              EEq  exp0 exp1     -> overlBin "eq"    <| exp0 <| exp1
+              ENe  exp0 exp1     -> overlBin "ne"    <| exp0 <| exp1
+              ELt  exp0 exp1     -> overlBin "lt"    <| exp0 <| exp1
+              ELe  exp0 exp1     -> overlBin "le"    <| exp0 <| exp1
+              EGt  exp0 exp1     -> overlBin "gt"    <| exp0 <| exp1
+              EGe  exp0 exp1     -> overlBin "ge"    <| exp0 <| exp1
+              EListCons exp0 exp1 -> appCons         <| exp0 <| exp1
+              EAdd exp0 exp1     -> overlBin "plus"  <| exp0 <| exp1
+              ESub exp0 exp1     -> overlBin "minus" <| exp0 <| exp1
+              EMul exp0 exp1     -> overlBin "times" <| exp0 <| exp1
+              EDiv exp0 exp1     -> overlBin "div"   <| exp0 <| exp1
+              EMod exp0 exp1     -> overlBin "mod"   <| exp0 <| exp1
+              ENeg exp0          -> overlUn  "neg"   <| exp0
+              EEmptyList         -> mkList []
+              EList exps         -> mkList (map f exps)
+              ETuple exp1 exps   -> mkETuple (map f (exp1:exps))
+              _                  -> composOp f x
+    where g <| x = g (f x)
+
+--
+-- * List patterns
+--
+
+pListCons :: Pattern -> Pattern -> Pattern
+pListCons p1 p2 = PCons (Ident "Cons") [PWild,p1,p2]
+
+pList :: [Pattern] -> Pattern
+pList = foldr pListCons (PCons (Ident "Nil") [PWild])
+
+--
+-- * Use an overloaded function.
+--
+
+overlUn :: String -> Exp -> Exp
+overlUn f e1 = apply (EVar (Ident f)) [EMeta,EVar (Ident "num_Integer"),e1] -- FIXME: hack, should be ?
+
+overlBin :: String -> Exp -> Exp -> Exp
+overlBin f e1 e2 = apply (EVar (Ident f)) [EMeta,EVar (Ident "num_Integer"),e1,e2] -- FIXME: hack, should be ?
+
+--
+-- * Monad
+--
+
+mkDo :: [Bind] -> Exp -> Exp
+mkDo bs e = foldr (\ (BindVar v r) x -> appBind r (EAbs v x)) e bs
+
+appBind :: Exp -> Exp -> Exp
+appBind e1 e2 = apply (EVar (Ident "bind")) [EMeta,EMeta,EMeta,EMeta,e1,e2]
+
+appBindC :: Exp -> Exp -> Exp
+appBindC e1 e2 = appBind e1 (EAbs VWild e2)
+
+--
+-- * List
+--
+
+mkList :: [Exp] -> Exp
+mkList = foldr appCons (EApp (EVar (Ident "Nil")) EMeta)
+
+appCons :: Exp -> Exp -> Exp
+appCons e1 e2 = apply (EVar (Ident "Cons")) [EMeta,e1,e2]
+
+
+--
+-- * Booleans
+--
+
+andBool :: Exp -> Exp -> Exp
+andBool e1 e2 = ifBool e1 e2 false
+
+orBool :: Exp -> Exp -> Exp
+orBool e1 e2 = ifBool e1 true e2
+
+ifBool :: Exp -> Exp -> Exp -> Exp
+ifBool c t e = ECase c [Case (PCons (Ident "True") []) gtrue t,
+                        Case (PCons (Ident "False") []) gtrue e]
+
+
+--
+-- * Substitution
+--
+
+subst :: Ident -> Exp -> Exp -> Exp
+subst x e = substs [(x,e)]
+
+
+
+-- | Simultaneuous substitution
+substs :: [(Ident, Exp)] -> Exp -> Exp
+substs ss = f (Map.fromList ss)
+ where  
+ f :: Map Ident Exp -> Tree a -> Tree a
+ f ss t | Map.null ss = t
+ f ss t = case t of
+                 EVar i -> Map.findWithDefault t i ss
+                 _      -> composOp (f ss) t
+
+
+{-
+-- not needed now that variable names are unique
+-- FIXE: this function does not properly rename bound variables
+substs :: [(Ident, Exp)] -> Exp -> Exp
+substs ss = f (Map.fromList ss)
+ where  
+ f :: Map Ident Exp -> Tree a -> Tree a
+ f ss t | Map.null ss = t
+ f ss t = case t of
+   ELet ds e3 ->
+     ELet [LetDef id (f ss' e2) | LetDef id e2 <- ds] (f ss' e3)
+      where ss' = ss `mapMinusSet` letDefBinds ds
+   Case p g e -> Case p (f ss' g) (f ss' e) where ss' = ss `mapMinusSet` binds p
+   EAbs (VVar id) e -> EAbs (VVar id) (f ss' e) where ss' = Map.delete id ss
+   EPi (VVar id) e1 e2 -> 
+       EPi (VVar id) (f ss e1) (f ss' e2) where ss' = Map.delete id ss
+   EVar i -> Map.findWithDefault t i ss
+   _      -> composOp (f ss) t
+-}
+
+--
+-- * Abstract syntax utilities
+--
+
+var :: String -> Exp
+var s = EVar (Ident s)
+
+true :: Exp
+true = var "True"
+
+false :: Exp
+false = var "False"
+
+gtrue :: Guard
+gtrue = GuardExp true
+
+
+mkETuple :: [Exp] -> Exp
+mkETuple = ERec . zipWith (\i -> FieldValue (Ident ("p"++show i))) [1..]
+
+mkPTuple :: [Pattern] -> Pattern
+mkPTuple = PRec . zipWith (\i -> FieldPattern (Ident ("p"++show i))) [1..]
+
+-- | Apply an expression to a list of arguments.
+apply :: Exp -> [Exp] -> Exp
+apply = foldl EApp
+
+-- | Abstract a value over some arguments.
+abstract :: Int -- ^ number of arguments
+         -> ([Exp] -> Exp) -> C Exp
+abstract n f = 
+    do
+    vs <- freshIdents n
+    return $ foldr EAbs (f (map EVar vs)) (map VVar vs)
+
+-- | Abstract a type over some arguments.
+abstractType :: [Exp] -- ^ argument types
+             -> ([Exp] -> Exp) -- ^ function from variable expressions
+                               --   to the expression to return
+             -> C Exp
+abstractType ts f = 
+    do
+    vs <- freshIdents (length ts)
+    let pi (v,t) e = EPi (VVar v) t e
+    return $ foldr pi (f (map EVar vs)) (zip vs ts)
+
+-- | Get an identifier which cannot occur in user-written
+--   code, and which has not been generated before.
+freshIdent :: C Ident
+freshIdent = do
+             st <- get
+             put (st { nextVar = nextVar st + 1 })
+             return (Ident ("x_"++show (nextVar st)))
+
+freshIdents :: Int -> C [Ident]
+freshIdents n = replicateM n freshIdent
+
+-- | Get the variables bound by a set of let definitions.
+letDefBinds :: [LetDef] -> Set Ident
+letDefBinds defs = Set.fromList [ id | LetDef id _ <- defs]
+
+letDefRhss :: [LetDef] -> [Exp]
+letDefRhss defs = [ exp | LetDef _ exp <- defs ]
+
+-- | Get the free variables in an expression.
+freeVars :: Exp -> Set Ident
+freeVars = f
+  where
+  f :: Tree a -> Set Ident
+  f t = case t of
+   ELet defs exp -> 
+           Set.unions (f exp:map f (letDefRhss defs)) Set.\\ letDefBinds defs
+   ECase exp cases -> f exp `Set.union` 
+                      Set.unions [(f g `Set.union` f e) Set.\\ binds p 
+                                      | Case p g e <- cases]
+   EAbs (VVar id) exp -> Set.delete id (f exp)
+   EPi (VVar id) exp1 exp2 -> f exp1 `Set.union` Set.delete id (f exp2)
+   EVar i -> Set.singleton i
+   _      -> composOpMonoid f t
+
+isFreeIn :: Ident -> Exp -> Bool
+isFreeIn x e = countFreeOccur x e > 0
+
+-- | Count the number of times a variable occurs free in an expression.
+countFreeOccur :: Ident -> Exp -> Int
+countFreeOccur x = f
+  where
+  f :: Tree a -> Int
+  f t = case t of
+   ELet defs _ | x `Set.member` letDefBinds defs -> 0
+   Case p _ _ | x `Set.member` binds p -> 0
+   EAbs (VVar id) _ | id == x -> 0
+   EPi (VVar id) exp1 _ | id == x -> f exp1
+   EVar id | id == x -> 1
+   _      -> composOpFold 0 (+) f t
+
+-- | Get the variables bound by a pattern.
+binds :: Pattern -> Set Ident
+binds = f
+ where 
+ f :: Tree a -> Set Ident
+ f p = case p of
+                 -- replaceCons removes non-variable PVars
+                 PVar id -> Set.singleton id 
+                 _ -> composOpMonoid f p
+
+
+fromPRec :: [FieldPattern] -> [(Ident,Pattern)]
+fromPRec fps = [ (l,p) | FieldPattern l p <- fps ]
+
+toPRec :: [(Ident,Pattern)] -> [FieldPattern]
+toPRec = map (uncurry FieldPattern)
+
+--
+-- * Data types
+--
+
+type DataTypes = Map Ident (Exp,[(Ident,Exp)])
+
+-- | Get a map of data type names to the type of the type constructor
+--   and all data constructors with their types.
+dataTypes :: [Decl] -> Map Ident (Exp,[(Ident,Exp)])
+dataTypes ds = Map.fromList [ (i,(t,[(c,ct) | ConsDecl c ct <- cs])) | DataDecl i t cs <- ds]
+
+getDataType :: DataTypes -> Ident -> (Exp,[(Ident,Exp)])
+getDataType ts i = 
+    case Map.lookup i ts of
+        Just t -> t
+        Nothing -> error $ "Data type " ++ printTree i ++ " not found."
+                           ++ " Known types: " ++ show (Map.keysSet ts)
+
+--
+-- * Utilities
+--
+
+infixl 1 >>>
+
+(>>>) :: Monad m => (a -> m b) -> (b -> m c) -> a -> m c
+f >>> g = (g =<<) . f
+
+mapMinusSet :: Ord k => Map k a -> Set k -> Map k a
+mapMinusSet m s = m Map.\\ (Map.fromList [(x,()) | x <- Set.toList s])