{-# LANGUAGE TypeSynonymInstances, FlexibleInstances, FlexibleContexts #-}
-----------------------------------------------------------------------------
-- |
-- Module      :  Language.C.Pretty
-- Copyright   :  Copyright (c) 2007 Bertram Felgenhauer
--                          (c) 2008 Benedikt Huber
-- License     :  BSD-style
-- Maintainer  : benedikt.huber@gmail.com
-- Stability   : experimental
-- Portability : portable
--
-- This module provides a pretty printer for the parse tree
-- ('Language.C.Syntax.AST').
-----------------------------------------------------------------------------
module Language.C.Pretty (
    -- * Pretty Printing
    Pretty (..),
    -- * Testing
    prettyUsingInclude
) where
import Data.List (partition,nub,isSuffixOf)
import qualified Data.Set as Set
import Text.PrettyPrint.HughesPJ
import Debug.Trace {- for warnings -}

import Language.C.Data
import Language.C.Syntax

-- | A class of types which can be pretty printed
class Pretty p where
    -- | pretty print the given value
    pretty     :: p -> Doc
    -- | @prettyPrec prec p@ pretty prints p assuming
    -- that the surrounding context has a precedence of
    -- @prec@
    prettyPrec :: Int -> p -> Doc

    pretty       = prettyPrec 0
    prettyPrec _ = pretty

-- pretty print optional chunk
maybeP :: (p -> Doc) -> Maybe p -> Doc
maybeP = maybe empty

-- pretty print when flag is true
ifP :: Bool -> Doc -> Doc
ifP flag doc = if flag then doc else empty

-- pretty print _optional_ list, i.e. [] ~ Nothing and (x:xs) ~ Just (x:xs)
mlistP :: ([p] -> Doc) -> [p] -> Doc
mlistP pp xs = maybeP pp (if null xs then Nothing else Just xs)

-- pretty print identifier
identP :: Ident -> Doc
identP = text . identToString

-- pretty print attribute annotations
attrlistP :: [CAttr] -> Doc
attrlistP [] = empty
attrlistP attrs = text "__attribute__" <> parens (parens (hcat . punctuate comma . map pretty $ attrs))

-- analogous to showParen
parenPrec :: Int -> Int -> Doc -> Doc
parenPrec prec prec2 t = if prec <= prec2 then t else parens t

-- indent a chunk of code
ii :: Doc -> Doc
ii = nest 4

-- Pretty instances
instance Pretty CTranslUnit where
    pretty (CTranslUnit edecls _) = vcat (map pretty edecls)

-- | Pretty print the given tranlation unit, but replace declarations from header files with @#include@ directives.
--
-- The resulting file may not compile (because of missing @#define@ directives and similar things), but is very useful
-- for testing, as otherwise the pretty printed file will be cluttered with declarations from system headers.
prettyUsingInclude :: CTranslUnit -> Doc
prettyUsingInclude (CTranslUnit edecls _) =
  includeWarning headerFiles
    $$
  (vcat $ map (either includeHeader pretty) mappedDecls)
  where
    (headerFiles,mappedDecls) = foldr addDecl (Set.empty,[]) $ map tagIncludedDecls edecls
    tagIncludedDecls edecl | maybe False isHeaderFile (fileOfNode edecl) = Left ((posFile . posOf) edecl)
                           | otherwise = Right edecl
    addDecl decl@(Left headerRef) (headerSet, ds)
      | Set.member headerRef headerSet = (headerSet, ds)
      | otherwise = (Set.insert headerRef headerSet, decl : ds)
    addDecl decl (headerSet,ds) = (headerSet, decl : ds)
    includeHeader hFile = text "#include" <+> doubleQuotes (text hFile)
    isHeaderFile = (".h" `isSuffixOf`)
    includeWarning hs | Set.null hs = empty
                      | otherwise = text "/* Warning: The #include directives in this file aren't necessarily correct. */"

-- TODO: Check need of __extension__
instance Pretty CExtDecl where
    pretty (CDeclExt decl) = pretty decl <> semi
    pretty (CFDefExt fund) = pretty fund
    pretty (CAsmExt  asmStmt _) = text "asm" <> parens (pretty asmStmt) <> semi

-- TODO: Check that old-style and new-style aren't mixed
instance Pretty CFunDef where
    pretty (CFunDef declspecs declr decls stat _) =          -- Example:
            hsep (map pretty declspecs)                      -- __attribute__((noreturn)) static long
        <+> pretty declr                                     -- foo(b)
        $+$ (ii . vcat . map (<> semi) . map pretty) decls   --     register long b;
        $$ prettyPrec (-1) stat                              -- {  ...
                                                             -- }

instance Pretty CStat where
    pretty (CLabel ident stat cattrs _) = identP ident <> text ":" <+> attrlistP cattrs $$ pretty stat
    pretty (CCase expr stat _) =
        text "case" <+> pretty expr <> text ":" $$ pretty stat
    pretty (CCases expr1 expr2 stat _) =
        text "case" <+> pretty expr1 <+> text "..."
                    <+> pretty expr2 <> text ":" $$ pretty stat
    pretty (CDefault stat _) = text "default:" $$ pretty stat
    pretty (CExpr expr _) = ii $ maybeP pretty expr <> semi
    pretty c@(CCompound _ _ _) = prettyPrec 0 c
    pretty (CIf expr stat estat _) =
        ii $  text "if" <+> parens (pretty expr)
                $+$ prettyBody stat
                $$  maybeP prettyElse estat
      where
        prettyBody c@(CCompound _ _ _) = prettyPrec (-1) c
        prettyBody nonCompound         = prettyPrec (-1) (CCompound [] [CBlockStmt nonCompound] undefined)
        prettyElse (CIf else_if_expr else_if_stat else_stat _) =
          text "else if" <+> parens (pretty else_if_expr)
            $+$ prettyBody else_if_stat
            $$  maybeP prettyElse else_stat
        prettyElse else_stmt =
          text "else"
            $+$ prettyBody else_stmt

    pretty (CSwitch expr stat _) =
        ii $ text "switch" <+> text "(" <> pretty expr <> text ")"
               $+$ prettyPrec (-1) stat
    pretty (CWhile expr stat False _) =
        ii $ text "while" <+> text "(" <> pretty expr <> text ")"
               $+$ prettyPrec (-1) stat
    pretty (CWhile expr stat True _) =
        ii $ text "do" $+$ prettyPrec (-1) stat
               $$ text "while" <+> text "(" <> pretty expr <> text ");"
    pretty (CFor for_init cond step stat _) =
        ii $ text "for" <+> text "("
               <> either (maybeP pretty) pretty for_init <> semi
               <+> maybeP pretty cond <> semi
               <+> maybeP pretty step <> text ")" $+$ prettyPrec (-1) stat
    pretty (CGoto ident _) = ii $ text "goto" <+> identP ident <> semi
    pretty (CGotoPtr expr _) = ii $ text "goto" <+> text "*" <+> prettyPrec 30 expr <> semi
    pretty (CCont _) = ii $ text "continue" <> semi
    pretty (CBreak _) = ii $ text "break" <> semi
    pretty (CReturn Nothing _) = ii $ text "return" <> semi
    pretty (CReturn (Just e) _) = ii $ text "return" <+> pretty e <> semi
    pretty (CAsm asmStmt _) = pretty asmStmt
    prettyPrec p (CCompound localLabels bis _) =
        let inner = text "{" $+$ mlistP ppLblDecls localLabels $+$ vcat (map pretty bis) $$ text "}"
        in  if p == -1 then inner else ii inner
        where ppLblDecls =  vcat . map (\l -> text "__label__" <+> identP l <+> semi)
    prettyPrec _ p = pretty p

instance Pretty CAsmStmt where
    pretty (CAsmStmt tyQual expr outOps inOps clobbers _) =
        ii $ text "__asm__" <+>
             maybeP pretty tyQual <>
             parens asmStmt <> semi
      where
        asmStmt = pretty expr <+>
                  (if all null [inOps,outOps] && null clobbers then empty else ops)
        ops     =  text ":" <+> hcat (punctuate comma (map pretty outOps)) <+>
                   text ":" <+> hcat (punctuate comma (map pretty inOps)) <+>
                   (if null clobbers then empty else clobs)
        clobs   =  text ":" <+> hcat (punctuate comma (map pretty clobbers))

instance Pretty CAsmOperand where
    -- asm_operand :~ [operand-name] "constraint" ( expr )
    pretty (CAsmOperand mArgName cnstr expr _) =
        maybeP (\argName -> text "[" <> identP argName <> text "]") mArgName <+>
        pretty cnstr <+>
        parens (pretty expr)

-- TODO: Check need of __extension__
instance Pretty CBlockItem where
    pretty (CBlockStmt stat) = pretty stat
    pretty (CBlockDecl decl) = ii $ pretty decl <> semi
    pretty (CNestedFunDef fundef) = ii $ pretty fundef

instance Pretty CDecl where
    -- CAVEAT:
    -- we may not print __attribute__s directly after typespecs,
    -- as this may change the semantics of the declaration.
    -- The parser fixes this, but to avoid hard-to-track code generator
    -- errors, we enforce this invariant on the AST level.
    pretty (CDecl specs divs _) =
        hsep (map pretty checked_specs) <+> hsep (punctuate comma (map p divs))
            where
            -- possible hint for AST improvement - (declr, initializer, expr, attrs)
            -- currently there are no sensible attributes for unnamed bitfields though
            p (declr, initializer, expr) =
                maybeP (prettyDeclr False 0) declr <+>
                maybeP ((text ":" <+>) . pretty) expr <+>
                attrlistP (getAttrs declr) <+>
                maybeP ((text "=" <+>) . pretty) initializer
            checked_specs =
                case any isAttrAfterSUE  (zip specs (tail specs)) of
                    True -> trace
                              ("Warning: AST Invariant violated: __attribute__ specifier following struct/union/enum:"++
                               (show $ map pretty specs))
                            specs
                    False -> specs
            isAttrAfterSUE (CTypeSpec ty,CTypeQual (CAttrQual _)) = isSUEDef ty
            isAttrAfterSUE _ = False
            getAttrs Nothing = []
            getAttrs (Just (CDeclr _ _ _ cattrs _)) = cattrs

instance Pretty CDeclSpec where
    pretty (CStorageSpec sp) = pretty sp
    pretty (CTypeSpec sp) = pretty sp
    pretty (CTypeQual qu) = pretty qu

instance Pretty CStorageSpec where
    pretty (CAuto _) = text "auto"
    pretty (CRegister _) = text "register"
    pretty (CStatic _) = text "static"
    pretty (CExtern _) = text "extern"
    pretty (CTypedef _) = text "typedef"
    pretty (CThread _) = text "__thread"

instance Pretty CTypeSpec where
    pretty (CVoidType _)        = text "void"
    pretty (CCharType _)        = text "char"
    pretty (CShortType _)       = text "short"
    pretty (CIntType _)         = text "int"
    pretty (CLongType _)        = text "long"
    pretty (CFloatType _)       = text "float"
    pretty (CDoubleType _)      = text "double"
    pretty (CSignedType _)      = text "signed"
    pretty (CUnsigType _)       = text "unsigned"
    pretty (CBoolType _)        = text "_Bool"
    pretty (CComplexType _)     = text "_Complex"
    pretty (CSUType union _)    = pretty union
    pretty (CEnumType enum _)   = pretty enum
    pretty (CTypeDef ident _)   = identP ident
    pretty (CTypeOfExpr expr _) =
        text "typeof" <> text "(" <> pretty expr <> text ")"
    pretty (CTypeOfType decl _) =
        text "typeof" <> text "(" <> pretty decl <> text ")"

instance Pretty CTypeQual where
    pretty (CConstQual _) = text "const"
    pretty (CVolatQual _) = text "volatile"
    pretty (CRestrQual _) = text "__restrict"
    pretty (CInlineQual _) = text "inline"
    pretty (CAttrQual a)  = attrlistP [a]

instance Pretty CStructUnion where
    pretty (CStruct tag ident Nothing cattrs _) = pretty tag <+> attrlistP cattrs <+> maybeP identP ident
    pretty (CStruct tag ident (Just []) cattrs _) =
        pretty tag <+> attrlistP cattrs <+> maybeP identP ident <+> text "{ }"
    pretty (CStruct tag ident (Just decls) cattrs _) = vcat [
        pretty tag <+> attrlistP cattrs <+> maybeP identP ident <+> text "{",
        ii $ sep (map (<> semi) (map pretty decls)),
        text "}"]

instance Pretty CStructTag where
    pretty CStructTag = text "struct"
    pretty CUnionTag  = text "union"

instance Pretty CEnum where
    pretty (CEnum enum_ident Nothing cattrs _) = text "enum" <+> attrlistP cattrs <+> maybeP identP enum_ident
    pretty (CEnum enum_ident (Just vals) cattrs _) = vcat [
        text "enum" <+> attrlistP cattrs <+> maybeP identP enum_ident <+> text "{",
        ii $ sep (punctuate comma (map p vals)),
        text "}"] where
        p (ident, expr) = identP ident <+> maybeP ((text "=" <+>) . pretty) expr

--  Analyze a declarator and return a human-readable description
--   See C99 Spec p 115ff.
-- describeDeclr :: CDeclr -> Doc
-- describeDeclr declr =
--     let declrs = reverse (declrChain declr) in
--     endDescr (foldl descrDeclr undefined declrs)
--
--   where
--   declrChain declr@(CVarDeclr _ _ _ _) = [declr]
--   declrChain declr@(CPtrDeclr _ ideclr _)   = declr : declrChain ideclr
--   declrChain declr@(CArrDeclr ideclr _ _ _) = declr : declrChain ideclr
--   declrChain declr@(CFunDeclr ideclr _ _ _)   = declr : declrChain ideclr
--
--   descrDeclr _ (CVarDeclr ident asm cattrs _) = single False $ \_ ->
--       maybe (text "<anonymous>") identP ident <+>
--       maybeP (\asmname -> parens (text "asm:" <+> pretty asmname)) asm <+>
--       text "is" <+> (if null cattrs then empty else prettyList (map CAttrQual cattrs) <> comma)
--   descrDeclr (pre,isPlural) (CPtrDeclr quals declr _) = single isPlural $ \pluralize ->
--       pre <+> indefArticle isPlural <> prettyList quals <+> pluralize "pointer to" "pointers to"
--   descrDeclr (pre,isPlural) (CArrDeclr declr quals expr _) = plural isPlural $ \pluralize ->
--       pre <+> indefArticle' isPlural <> prettyList quals <+> pluralize "array of" "arrays of"
--   descrDeclr (pre,isPlural) (CFunDeclr declr params cattrs _) = single isPlural $ \pluralize ->
--       pre <+> indefArticle isPlural <> prettyList (map CAttrQual cattrs) <+> pluralize "function returning" "functions returning"
--   endDescr (pre, isPlural) =  pre <+> text (if isPlural then "<typed objects>" else "a <typed object>")
--   single :: Bool -> ( (String -> String -> Doc) -> a ) -> (a, Bool)
--   single isPlural mkDescr = (mkDescr (pluralize isPlural), isPlural)
--   plural :: Bool -> ( (String -> String -> Doc) -> a ) -> (a, Bool)
--   plural isPlural mkDescr = (mkDescr (pluralize isPlural), True)
--   indefArticle isPlural  = text$ if isPlural then "" else "a "
--   indefArticle' isPlural = text$ if isPlural then "" else "an "
--   pluralize isPlural s p = text (if isPlural then p else s)
--   prettyList :: (Pretty a) => [a] -> Doc
--   prettyList = hsep . punctuate comma . map pretty
instance Pretty CDeclr where
    prettyPrec prec declr = prettyDeclr True prec declr

prettyDeclr :: Bool -> Int -> CDeclr -> Doc
prettyDeclr show_attrs prec (CDeclr name derived_declrs asmname cattrs _) =
    ppDeclr prec (reverse derived_declrs) <+> prettyAsmName asmname <+> ifP show_attrs (attrlistP cattrs)
    where
    ppDeclr _ [] = maybeP identP name
    --'*' __attribute__? qualifiers declarator
    ppDeclr p (CPtrDeclr quals _ : declrs) =
        parenPrec p 5 $ text "*" <+> hsep (map pretty quals) <+> ppDeclr 5 declrs

    -- declarator[ __attribute__? qualifiers expr ]
    ppDeclr p (CArrDeclr quals size _ : declrs) =
        parenPrec p 6 $ ppDeclr 6 declrs <> brackets (hsep (map pretty quals) <+> pretty size)
    -- declarator ( arguments )
    -- or (__attribute__ declarator) (arguments)
    ppDeclr _ (CFunDeclr params fun_attrs _ : declrs) =
        (if not (null fun_attrs) then parens (attrlistP fun_attrs <+> ppDeclr 5 declrs) else ppDeclr 6 declrs)
        <> parens (prettyParams params)
    prettyParams (Right (decls, isVariadic)) =
     sep (punctuate comma (map pretty decls))
     <> (if isVariadic then text "," <+> text "..." else empty)
    prettyParams (Left oldStyleIds) =
     hsep (punctuate comma (map identP oldStyleIds))
    prettyAsmName asm_name_opt
        = maybe empty (\asm_name -> text "__asm__" <> parens (pretty asm_name)) asm_name_opt

instance Pretty CArrSize where
  pretty (CNoArrSize completeType) = ifP completeType (text "*")
  pretty (CArrSize staticMod expr) = ifP staticMod (text "static") <+> pretty expr
-- initializer :: { CInit }
-- initializer :- assignment_expression
--              | '{' (designation? initializer)_cs_list '}'
instance Pretty CInit where
    pretty (CInitExpr expr _) = pretty expr
    pretty (CInitList initl _) =
        text "{" <+> hsep (punctuate comma (map p initl)) <+> text "}" where
        p ([], initializer)     = pretty initializer
        p (desigs, initializer) = hsep (map pretty desigs) <+> text "=" <+> pretty initializer

-- designation :- designator_list '='
--             | array_range_designator
-- arr_designator :- '[' constant_expression ']'
-- member_designator :-  '.' identifier
-- arr_range _designator :- '[' constant_expression "..." constant_expression ']'

instance Pretty CDesignator where
    pretty (CArrDesig expr _) = text "[" <> pretty expr <> text "]"
    pretty (CMemberDesig ident _) = text "." <> identP ident
    pretty (CRangeDesig expr1 expr2 _) =
        text "[" <> pretty expr1 <+> text "..." <+> pretty expr2 <> text "]"

instance Pretty CAttr where
    pretty (CAttr attrName [] _) = identP attrName
    pretty (CAttr attrName attrParams _) = identP attrName <> parens (hsep . punctuate comma . map pretty $ attrParams)

instance Pretty CExpr where
    prettyPrec p (CComma exprs _) =
        parenPrec p (-1) $ hsep (punctuate comma (map (prettyPrec 2) exprs))
    prettyPrec p (CAssign op expr1 expr2 _) =
        parenPrec p 2 $ prettyPrec 3 expr1 <+> pretty op <+> prettyPrec 2 expr2
    prettyPrec p (CCond expr1 expr2 expr3 _) =
        parenPrec p 2 $ prettyPrec 4 expr1 <+> text "?" -- NB: assignment only has a higher precedence if cond is on the rhs
           <+> maybeP pretty expr2 <+> text ":" <+> prettyPrec 4 expr3
    prettyPrec p (CBinary op expr1 expr2 _) =
        let prec = binPrec op
        in  parenPrec p prec $ prettyPrec prec expr1
                             <+> pretty op <+> prettyPrec (prec + 1) expr2
    prettyPrec p (CCast decl expr _) =
        parenPrec p 25 $ text "(" <> pretty decl <> text ")"
                       <+> prettyPrec 25 expr
    prettyPrec p (CUnary CPostIncOp expr _) =
        parenPrec p 26 $ prettyPrec 26 expr <> text "++"
    prettyPrec p (CUnary CPostDecOp expr _) =
        parenPrec p 26 $ prettyPrec 26 expr <> text "--"
    prettyPrec p (CUnary op expr@(CUnary _ _ _) _) =
        --                             parens aren't necessary, but look nicer imho
        parenPrec p 25 $ pretty op <+> parens (prettyPrec 25 expr)
    prettyPrec p (CUnary op expr _) =
        parenPrec p 25 $ pretty op <> prettyPrec 25 expr
    prettyPrec p (CSizeofExpr expr _) =
        parenPrec p 25 $ text "sizeof" <> parens (pretty expr)
    prettyPrec p (CSizeofType decl _) =
        parenPrec p 25 $ text "sizeof" <> parens (pretty decl)
    prettyPrec p (CAlignofExpr expr _) =
        parenPrec p 25 $ text "__alignof" <> parens (pretty expr)
    prettyPrec p (CAlignofType decl _) =
        parenPrec p 25 $ text "__alignof" <> parens (pretty decl)
    prettyPrec p (CComplexReal expr _) =
        parenPrec p 25 $ text "__real" <+> prettyPrec 25 expr
    prettyPrec p (CComplexImag expr _) =
        parenPrec p 25 $ text "__imag" <+> prettyPrec 25 expr
    prettyPrec p (CIndex expr1 expr2 _) =
        parenPrec p 26 $ prettyPrec 26 expr1
                       <> text "[" <> pretty expr2 <> text "]"
    prettyPrec p (CCall expr args _) =
        parenPrec p 30 $ prettyPrec 30 expr <> text "("
            <> (sep . punctuate comma . map pretty) args <> text ")"
    prettyPrec p (CMember expr ident deref _) =
        parenPrec p 26 $ prettyPrec 26 expr
                       <> text (if deref then "->" else ".") <> identP ident
    prettyPrec _p (CVar ident _) = identP ident
    prettyPrec _p (CConst constant) = pretty constant
    prettyPrec _p (CCompoundLit decl initl _) =
        parens (pretty decl) <+> (braces . hsep . punctuate comma) (map p initl) where
        p ([], initializer)           = pretty initializer
        p (mems, initializer) = hcat (punctuate (text ".") (map pretty mems)) <+> text "=" <+> pretty initializer

    prettyPrec _p (CStatExpr stat _) =
        text "(" <> pretty stat <> text ")"

    -- unary_expr :- && ident  {- address of label -}
    prettyPrec _p (CLabAddrExpr ident _) = text "&&" <> identP ident

    prettyPrec _p (CBuiltinExpr builtin) = pretty builtin

instance Pretty CBuiltin where
    pretty (CBuiltinVaArg expr ty_name _) =
        text "__builtin_va_arg" <+>
        (parens $ pretty expr <> comma <+> pretty ty_name)
    -- The first desig has to be a member field.
    pretty (CBuiltinOffsetOf ty_name (CMemberDesig field1 _ : desigs) _) =
        text "__builtin_offsetof" <+>
        (parens $ pretty ty_name <> comma <+> identP field1 <> hcat (map pretty desigs) )
    pretty (CBuiltinOffsetOf _ty_name otherDesigs _) =
        error $ "Inconsistent AST: Cannot interpret designators in offsetOf: "++ show (hcat$ map pretty otherDesigs)
    pretty (CBuiltinTypesCompatible ty1 ty2 _) =
        text "__builtin_types_compatible_p" <+>
        (parens $ pretty ty1 <> comma <+> pretty ty2)

instance Pretty CAssignOp where
  pretty op = text $ case op of
    CAssignOp -> "="
    CMulAssOp -> "*="
    CDivAssOp -> "/="
    CRmdAssOp -> "%="
    CAddAssOp -> "+="
    CSubAssOp -> "-="
    CShlAssOp -> "<<="
    CShrAssOp -> ">>="
    CAndAssOp -> "&="
    CXorAssOp -> "^="
    COrAssOp  -> "|="

instance Pretty CBinaryOp where
  pretty op = text $ case op of
    CMulOp -> "*"
    CDivOp -> "/"
    CRmdOp -> "%"
    CAddOp -> "+"
    CSubOp -> "-"
    CShlOp -> "<<"
    CShrOp -> ">>"
    CLeOp  -> "<"
    CGrOp  -> ">"
    CLeqOp -> "<="
    CGeqOp -> ">="
    CEqOp  -> "=="
    CNeqOp -> "!="
    CAndOp -> "&"
    CXorOp -> "^"
    COrOp  -> "|"
    CLndOp -> "&&"
    CLorOp -> "||"

instance Pretty CUnaryOp where
  pretty op = text $ case op of
    CPreIncOp  -> "++"
    CPreDecOp  -> "--"
    CPostIncOp -> "++"
    CPostDecOp -> "--"
    CAdrOp     -> "&"
    CIndOp     -> "*"
    CPlusOp    -> "+"
    CMinOp     -> "-"
    CCompOp    -> "~"
    CNegOp     -> "!"

instance Pretty CConst where
    pretty (CIntConst   int_const _) = text (show int_const)
    pretty (CCharConst  chr _) = text (show chr)
    pretty (CFloatConst flt _) = text (show flt)
    pretty (CStrConst   str _) = text (show str)

instance Pretty CStrLit where
    pretty (CStrLit   str _) = text (show str)

-- precedence of C operators
binPrec :: CBinaryOp -> Int
binPrec CMulOp = 20
binPrec CDivOp = 20
binPrec CRmdOp = 20
binPrec CAddOp = 19
binPrec CSubOp = 19
binPrec CShlOp = 18
binPrec CShrOp = 18
binPrec CLeOp  = 17
binPrec CGrOp  = 17
binPrec CLeqOp = 17
binPrec CGeqOp = 17
binPrec CEqOp  = 16
binPrec CNeqOp = 16
binPrec CAndOp = 15
binPrec CXorOp = 14
binPrec COrOp  = 13
binPrec CLndOp = 12
binPrec CLorOp = 11