+id_info :: { [HsIdInfo RdrName] }
+ : { [] }
+ | id_info_item id_info { $1 : $2 }
+ | strict_info id_info { $1 ++ $2 }
+
+id_info_item :: { HsIdInfo RdrName }
+ : '__A' arity_info { HsArity $2 }
+ | '__U' core_expr { HsUnfold $1 (Just $2) }
+ | '__U' { HsUnfold $1 Nothing }
+ | '__P' spec_tvs
+ atypes '=' core_expr { HsSpecialise $2 $3 $5 }
+ | '__C' { HsNoCafRefs }
+
+
+strict_info :: { [HsIdInfo RdrName] }
+ : cpr worker { ($1:$2) }
+ | strict worker { ($1:$2) }
+ | cpr strict worker { ($1:$2:$3) }
+
+cpr :: { HsIdInfo RdrName }
+ : '__M' { HsCprInfo $1 }
+
+strict :: { HsIdInfo RdrName }
+ : '__S' { HsStrictness (HsStrictnessInfo $1) }
+
+worker :: { [HsIdInfo RdrName] }
+ : qvar_name '{' qdata_names '}' { [HsWorker $1 $3] }
+ | qvar_name { [HsWorker $1 []] }
+ | {- nothing -} { [] }
+
+spec_tvs :: { [HsTyVar RdrName] }
+ : '[' tv_bndrs ']' { $2 }
+
+
+arity_info :: { ArityInfo }
+ : INTEGER { exactArity (fromInteger $1) }
+
+-------------------------------------------------------
+core_expr :: { UfExpr RdrName }
+core_expr : '\\' core_bndrs '->' core_expr { foldr UfLam $4 $2 }
+ | 'case' core_expr 'of' var_name
+ '{' core_alts '}' { UfCase $2 $4 $6 }
+
+ | 'let' '{' core_val_bndr '=' core_expr
+ '}' 'in' core_expr { UfLet (UfNonRec $3 $5) $8 }
+ | '__letrec' '{' rec_binds '}'
+ 'in' core_expr { UfLet (UfRec $3) $6 }
+
+ | con_or_primop '{' core_args '}' { UfCon $1 $3 }
+ | '__litlit' STRING atype { UfCon (UfLitLitCon $2 $3) [] }
+
+ | '__inline' core_expr { UfNote UfInlineCall $2 }
+ | '__coerce' atype core_expr { UfNote (UfCoerce $2) $3 }
+ | scc core_expr { UfNote (UfSCC $1) $2 }
+ | fexpr { $1 }
+
+fexpr :: { UfExpr RdrName }
+fexpr : fexpr core_arg { UfApp $1 $2 }
+ | core_aexpr { $1 }
+
+core_arg :: { UfExpr RdrName }
+ : '@' atype { UfType $2 }
+ | core_aexpr { $1 }
+
+core_args :: { [UfExpr RdrName] }
+ : { [] }
+ | core_arg core_args { $1 : $2 }
+
+core_aexpr :: { UfExpr RdrName } -- Atomic expressions
+core_aexpr : qvar_name { UfVar $1 }
+
+ | qdata_name { UfVar $1 }
+ -- This one means that e.g. "True" will parse as
+ -- (UfVar True_Id) rather than (UfCon True_Con []).
+ -- No big deal; it'll be inlined in a jiffy. I tried
+ -- parsing it to (Con con []) directly, but got bitten
+ -- when a real constructor Id showed up in an interface
+ -- file. As usual, a hack bites you in the end.
+ -- If you want to get a UfCon, then use the
+ -- curly-bracket notation (True {}).
+
+ | core_lit { UfCon (UfLitCon $1) [] }
+ | '(' core_expr ')' { $2 }
+ | '(' comma_exprs2 ')' { UfTuple (mkTupConRdrName (length $2)) $2 }
+ | '(#' core_expr '#)' { UfTuple (mkUbxTupConRdrName 1) [$2] }
+ | '(#' comma_exprs2 '#)' { UfTuple (mkUbxTupConRdrName (length $2)) $2 }
+
+-- This one is dealt with by qdata_name: see above comments
+-- | '(' ')' { UfTuple (mkTupConRdrName 0) [] }
+
+comma_exprs2 :: { [UfExpr RdrName] } -- Two or more
+comma_exprs2 : core_expr ',' core_expr { [$1,$3] }
+ | core_expr ',' comma_exprs2 { $1 : $3 }
+
+con_or_primop :: { UfCon RdrName }
+con_or_primop : qdata_name { UfDataCon $1 }
+ | qvar_name { UfPrimOp $1 }
+ | '__ccall' ccall_string { let
+ (is_dyn, is_casm, may_gc) = $1
+ in
+ UfCCallOp $2 is_dyn is_casm may_gc
+ }
+
+rec_binds :: { [(UfBinder RdrName, UfExpr RdrName)] }
+ : { [] }
+ | core_val_bndr '=' core_expr ';' rec_binds { ($1,$3) : $5 }
+
+core_alts :: { [UfAlt RdrName] }
+ : core_alt { [$1] }
+ | core_alt ';' core_alts { $1 : $3 }
+
+core_alt :: { UfAlt RdrName }
+core_alt : core_pat '->' core_expr { (fst $1, snd $1, $3) }
+
+core_pat :: { (UfCon RdrName, [RdrName]) }
+core_pat : core_lit { (UfLitCon $1, []) }
+ | '__litlit' STRING atype { (UfLitLitCon $2 $3, []) }
+ | qdata_name var_names { (UfDataCon $1, $2) }
+ | '(' comma_var_names1 ')' { (UfDataCon (mkTupConRdrName (length $2)), $2) }
+ | '(#' comma_var_names1 '#)' { (UfDataCon (mkUbxTupConRdrName (length $2)), $2) }
+ | '__DEFAULT' { (UfDefault, []) }
+ | '(' core_pat ')' { $2 }
+
+
+comma_var_names1 :: { [RdrName] } -- One or more
+comma_var_names1 : var_name { [$1] }
+ | var_name ',' comma_var_names1 { $1 : $3 }
+
+core_lit :: { Literal }
+core_lit : INTEGER { mkMachInt_safe $1 }
+ | CHAR { MachChar $1 }
+ | STRING { MachStr $1 }
+ | '__string' STRING { NoRepStr $2 (panic "NoRepStr type") }
+ | RATIONAL { MachDouble $1 }
+ | '__float' RATIONAL { MachFloat $2 }
+
+ | '__integer' INTEGER { NoRepInteger $2 (panic "NoRepInteger type")
+ -- The type checker will add the types
+ }
+
+ | '__rational' INTEGER INTEGER { NoRepRational ($2 % $3)
+ (panic "NoRepRational type")
+ -- The type checker will add the type
+ }
+
+ | '__addr' INTEGER { MachAddr $2 }
+
+core_bndr :: { UfBinder RdrName }
+core_bndr : core_val_bndr { $1 }
+ | core_tv_bndr { $1 }
+
+core_bndrs :: { [UfBinder RdrName] }
+core_bndrs : { [] }
+ | core_bndr core_bndrs { $1 : $2 }
+
+core_val_bndr :: { UfBinder RdrName }
+core_val_bndr : var_name '::' atype { UfValBinder $1 $3 }
+
+core_tv_bndr :: { UfBinder RdrName }
+core_tv_bndr : '@' tv_name '::' akind { UfTyBinder $2 $4 }
+ | '@' tv_name { UfTyBinder $2 boxedTypeKind }
+
+ccall_string :: { FAST_STRING }
+ : STRING { $1 }
+ | VARID { $1 }
+ | CONID { $1 }
+
+------------------------------------------------------------------------
+scc :: { CostCentre }
+ : '__sccC' '{' mod_name STRING '}' { AllCafsCC $3 $4 }
+ | '__scc' '{' cc_name mod_name STRING cc_dup cc_caf '}'
+ { NormalCC { cc_name = $3, cc_mod = $4, cc_grp = $5,
+ cc_is_dupd = $6, cc_is_caf = $7 } }
+
+cc_name :: { EncodedFS }
+ : CONID { $1 }
+ | VARID { $1 }
+
+cc_dup :: { IsDupdCC }
+cc_dup : { OriginalCC }
+ | '!' { DupdCC }
+
+cc_caf :: { IsCafCC }
+ : { NotCafCC }
+ | '__C' { CafCC }
+
+-------------------------------------------------------------------
+
+src_loc :: { SrcLoc }
+src_loc : {% getSrcLocIf }
+
+checkVersion :: { () }
+ : {-empty-} {% checkVersion Nothing }
+ | INTEGER {% checkVersion (Just (fromInteger $1)) }
+
+-------------------------------------------------------------------
+
+-- Haskell code
+{