+{- Notes about the syntax of interface files
+ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+The header
+~~~~~~~~~~
+ interface "edison" M 4 6 2 ! 406 Module M, version 4, from package 'edison',
+ Fixities version 6, rules version 2
+ Interface syntax version 406
+ ! means M contains orphans
+
+Import declarations
+~~~~~~~~~~~~~~~~~~~
+ import Foo ; To compile M I used nothing from Foo, but it's
+ below me in the hierarchy
+
+ import Foo ! @ ; Ditto, but the ! means that Foo contains orphans
+ and the @ means that Foo is a boot interface
+
+ import Foo :: 3 ; To compile M I used everything from Foo, which has
+ module version 3
+
+ import Foo :: 3 2 6 a 1 b 3 c 7 ; To compile M I used Foo. It had
+ module version 3
+ fixity version 2
+ rules version 6
+ and some specific things besides.
+
+-}
+
+
{
module ParseIface ( parseIface, IfaceStuff(..) ) where
import HsSyn -- quite a bit of stuff
import RdrHsSyn -- oodles of synonyms
-import HsTypes ( mkHsForAllTy, mkHsUsForAllTy )
+import HsTypes ( mkHsForAllTy, mkHsUsForAllTy, mkHsTupCon )
import HsCore
+import Demand ( mkStrictnessInfo )
import Literal ( Literal(..), mkMachInt, mkMachInt64, mkMachWord, mkMachWord64 )
import BasicTypes ( Fixity(..), FixityDirection(..),
- NewOrData(..), Version
+ NewOrData(..), Version, initialVersion, Boxity(..)
)
import CostCentre ( CostCentre(..), IsCafCC(..), IsDupdCC(..) )
import CallConv ( cCallConv )
import HsPragmas ( noDataPragmas, noClassPragmas )
-import Type ( Kind, mkArrowKind, boxedTypeKind, openTypeKind, UsageAnn(..) )
-import IdInfo ( ArityInfo, exactArity, CprInfo(..), InlinePragInfo(..) )
+import Type ( Kind, mkArrowKind, boxedTypeKind, openTypeKind )
+import IdInfo ( exactArity, InlinePragInfo(..) )
import PrimOp ( CCall(..), CCallTarget(..) )
import Lex
-import RnMonad ( ImportVersion, LocalVersion, ParsedIface(..), WhatsImported(..),
- RdrNamePragma, ExportItem, RdrAvailInfo, GenAvailInfo(..),
- WhetherHasOrphans, IsBootInterface
- )
-import Bag ( emptyBag, unitBag, snocBag )
-import FiniteMap ( emptyFM, unitFM, addToFM, plusFM, bagToFM, FiniteMap )
-import RdrName ( RdrName, mkRdrUnqual, mkSysQual, mkSysUnqual, mkRdrNameWkr )
-import Name ( OccName, Provenance )
+import RnMonad ( ParsedIface(..) )
+import HscTypes ( WhetherHasOrphans, IsBootInterface, GenAvailInfo(..),
+ ImportVersion, ExportItem, WhatsImported(..),
+ RdrAvailInfo )
+
+import RdrName ( RdrName, mkRdrUnqual, mkSysQual, mkSysUnqual )
+import Name ( OccName )
import OccName ( mkSysOccFS,
tcName, varName, ipName, dataName, clsName, tvName, uvName,
EncodedFS
)
-import Module ( ModuleName, mkSysModuleFS )
-import PrelInfo ( mkTupConRdrName, mkUbxTupConRdrName )
+import Module ( ModuleName, PackageName, mkSysModuleNameFS, mkModule )
import SrcLoc ( SrcLoc )
-import Maybes
+import CmdLineOpts ( opt_InPackage )
import Outputable
+import List ( insert )
+import Class ( DefMeth (..) )
import GlaExts
import FastString ( tailFS )
-
-#if __HASKELL1__ > 4
-import Ratio ( (%) )
-#endif
}
%name parseIface
'then' { ITthen }
'type' { ITtype }
'where' { ITwhere }
---???? 'scc' { ITscc }
'forall' { ITforall } -- GHC extension keywords
'foreign' { ITforeign }
'__word64' { ITword64_lit }
'__rational' { ITrational_lit }
'__addr' { ITaddr_lit }
+ '__label' { ITlabel_lit }
'__litlit' { ITlit_lit }
'__string' { ITstring_lit }
'__ccall' { ITccall $$ }
'{' { ITocurly } -- special symbols
'}' { ITccurly }
+ '{|' { ITocurlybar } -- special symbols
+ '|}' { ITccurlybar } -- special symbols
'[' { ITobrack }
']' { ITcbrack }
'(' { IToparen }
-- (c) the IdInfo part of a signature (same reason)
iface_stuff :: { IfaceStuff }
-iface_stuff : iface { let (nm, iff) = $1 in PIface nm iff }
+iface_stuff : iface { PIface $1 }
| type { PType $1 }
| id_info { PIdInfo $1 }
| '__R' rules { PRules $2 }
| '__D' deprecs { PDeprecs $2 }
-iface :: { (ModuleName, ParsedIface) }
-iface : '__interface' mod_fs INTEGER orphans checkVersion 'where'
+iface :: { ParsedIface }
+iface : '__interface' package mod_name
+ version sub_versions
+ orphans checkVersion 'where'
exports_part
import_part
+ fix_decl_part
instance_decl_part
decls_part
rules_and_deprecs
- { ( $2 -- Module name
- , ParsedIface {
- pi_mod = fromInteger $3, -- Module version
- pi_orphan = $4,
- pi_exports = $7, -- Exports
- pi_usages = $8, -- Usages
- pi_insts = $9, -- Local instances
- pi_decls = $10, -- Decls
- pi_rules = fst $11, -- Rules
- pi_deprecs = snd $11 -- Deprecations
- } ) }
+ { ParsedIface {
+ pi_mod = mkModule $3 $2, -- Module itself
+ pi_vers = $4, -- Module version
+ pi_orphan = $6,
+ pi_exports = $9, -- Exports
+ pi_usages = $10, -- Usages
+ pi_fixity = (fst $5,$11), -- Fixies
+ pi_insts = $12, -- Local instances
+ pi_decls = $13, -- Decls
+ pi_rules = (snd $5,fst $14), -- Rules
+ pi_deprecs = snd $14 -- Deprecations
+ } }
+
+-- Versions for fixities and rules (optional)
+sub_versions :: { (Version,Version) }
+ : '[' version version ']' { ($2,$3) }
+ | {- empty -} { (initialVersion, initialVersion) }
--------------------------------------------------------------------------
import_part :: { [ImportVersion OccName] }
import_part : { [] }
- | import_part import_decl { $2 : $1 }
+ | import_decl import_part { $1 : $2 }
import_decl :: { ImportVersion OccName }
-import_decl : 'import' mod_fs INTEGER orphans is_boot whats_imported ';'
- { (mkSysModuleFS $2, fromInteger $3, $4, $5, $6) }
- -- import Foo 3 :: a 1 b 3 c 7 ; means import a,b,c from Foo
- -- import Foo 3 ; means import all of Foo
- -- import Foo 3 ! @ :: ...stuff... ; the ! means that Foo contains orphans
- -- and @ that Foo is a boot interface
+import_decl : 'import' mod_name orphans is_boot whats_imported ';'
+ { ({-mkSysModuleNameFS-} $2, $3, $4, $5) }
orphans :: { WhetherHasOrphans }
orphans : { False }
| '@' { True }
whats_imported :: { WhatsImported OccName }
-whats_imported : { Everything }
- | '::' name_version_pairs { Specifically $2 }
+whats_imported : { NothingAtAll }
+ | '::' version { Everything $2 }
+ | '::' version version version name_version_pairs { Specifically $2 $3 $4 $5 }
-name_version_pairs :: { [LocalVersion OccName] }
+name_version_pairs :: { [(OccName, Version)] }
name_version_pairs : { [] }
| name_version_pair name_version_pairs { $1 : $2 }
-name_version_pair :: { LocalVersion OccName }
-name_version_pair : var_occ INTEGER { ($1, fromInteger $2) }
- | tc_occ INTEGER { ($1, fromInteger $2) }
+name_version_pair :: { (OccName, Version) }
+name_version_pair : var_occ version { ($1, $2) }
+ | tc_occ version { ($1, $2) }
--------------------------------------------------------------------------
exports_part :: { [ExportItem] }
exports_part : { [] }
- | exports_part '__export'
- mod_fs entities ';' { (mkSysModuleFS $3, $4) : $1 }
+ | '__export' mod_name entities ';'
+ exports_part { ({-mkSysModuleNameFS-} $2, $3) : $5 }
entities :: { [RdrAvailInfo] }
entities : { [] }
| entity entities { $1 : $2 }
entity :: { RdrAvailInfo }
-entity : tc_occ { AvailTC $1 [$1] }
- | var_occ { Avail $1 }
- | tc_occ stuff_inside { AvailTC $1 ($1:$2) }
+entity : var_occ { Avail $1 }
+ | tc_occ { AvailTC $1 [$1] }
| tc_occ '|' stuff_inside { AvailTC $1 $3 }
+ | tc_occ stuff_inside { AvailTC $1 (insert $1 $2) }
+ -- The 'insert' is important. The stuff_inside is sorted, and
+ -- insert keeps it that way. This is important when comparing
+ -- against the new interface file, which has the stuff in sorted order
+ -- If they differ, we'll bump the module number when it's unnecessary
stuff_inside :: { [OccName] }
stuff_inside : '{' val_occs '}' { $2 }
--------------------------------------------------------------------------
+fix_decl_part :: { [RdrNameFixitySig] }
+fix_decl_part : {- empty -} { [] }
+ | fix_decls ';' { $1 }
+
+fix_decls :: { [RdrNameFixitySig] }
+fix_decls : { [] }
+ | fix_decl fix_decls { $1 : $2 }
+
+fix_decl :: { RdrNameFixitySig }
+fix_decl : src_loc fixity prec var_or_data_name { FixitySig $4 (Fixity $3 $2) $1 }
+
fixity :: { FixityDirection }
fixity : 'infixl' { InfixL }
| 'infixr' { InfixR }
| 'infix' { InfixN }
-mb_fix :: { Int }
-mb_fix : {-nothing-} { 9 }
- | INTEGER { (fromInteger $1) }
+prec :: { Int }
+prec : INTEGER { fromInteger $1 }
-----------------------------------------------------------------------------
| 'where' '{' csigs1 '}' { $3 }
csigs1 :: { [RdrNameSig] }
-csigs1 : csig { [$1] }
+csigs1 : { [] }
| csig ';' csigs1 { $1 : $3 }
csig :: { RdrNameSig }
-csig : src_loc var_name '::' type { mkClassOpSig False $2 $4 $1 }
- | src_loc var_name '=' '::' type { mkClassOpSig True $2 $5 $1 }
+csig : src_loc var_name '::' type { mkClassOpSig NoDefMeth $2 $4 $1 }
+ | src_loc var_name '=' '::' type { mkClassOpSig (DefMeth (error "DefMeth") )
+ $2 $5 $1 }
+ | src_loc var_name ';' '::' type { mkClassOpSig GenDefMeth $2 $5 $1 }
--------------------------------------------------------------------------
{ InstDecl $3
EmptyMonoBinds {- No bindings -}
[] {- No user pragmas -}
- $5 {- Dfun id -}
+ (Just $5) {- Dfun id -}
$1
}
decls_part :: { [(Version, RdrNameHsDecl)] }
decls_part
: {- empty -} { [] }
- | decls_part version decl ';' { ($2,$3):$1 }
+ | opt_version decl ';' decls_part { ($1,$2):$4 }
decl :: { RdrNameHsDecl }
decl : src_loc var_name '::' type maybe_idinfo
{ SigD (IfaceSig $2 $4 ($5 $2) $1) }
| src_loc 'type' tc_name tv_bndrs '=' type
{ TyClD (TySynonym $3 $4 $6 $1) }
- | src_loc 'data' decl_context tc_name tv_bndrs constrs
- { TyClD (TyData DataType $3 $4 $5 $6 Nothing noDataPragmas $1) }
- | src_loc 'newtype' decl_context tc_name tv_bndrs newtype_constr
- { TyClD (TyData NewType $3 $4 $5 $6 Nothing noDataPragmas $1) }
- | src_loc 'class' decl_context tc_name tv_bndrs fds csigs
+ | src_loc 'data' opt_decl_context tc_name tv_bndrs constrs
+ { TyClD (mkTyData DataType $3 $4 $5 $6 (length $6) Nothing noDataPragmas $1) }
+ | src_loc 'newtype' opt_decl_context tc_name tv_bndrs newtype_constr
+ { TyClD (mkTyData NewType $3 $4 $5 $6 1 Nothing noDataPragmas $1) }
+ | src_loc 'class' opt_decl_context tc_name tv_bndrs fds csigs
{ TyClD (mkClassDecl $3 $4 $5 $6 $7 EmptyMonoBinds
noClassPragmas $1) }
- | src_loc fixity mb_fix var_or_data_name
- { FixD (FixitySig $4 (Fixity $3 $2) $1) }
maybe_idinfo :: { RdrName -> [HsIdInfo RdrName] }
maybe_idinfo : {- empty -} { \_ -> [] }
rule :: { RdrNameRuleDecl }
rule : src_loc STRING rule_forall qvar_name
- core_args '=' core_expr { IfaceRuleDecl $4 (UfRuleBody $2 $3 $5 $7) $1 }
+ core_args '=' core_expr { IfaceRule $2 $3 $4 $5 $7 $1 }
rule_forall :: { [UfBinder RdrName] }
rule_forall : '__forall' '{' core_bndrs '}' { $3 }
deprecs :: { [RdrNameDeprecation] }
deprecs : {- empty -} { [] }
- | deprecs deprec ';' { $2 : $1 }
+ | deprec ';' deprecs { $1 : $3 }
deprec :: { RdrNameDeprecation }
-deprec : STRING { Deprecation (IEModuleContents undefined) $1 }
- | deprec_name STRING { Deprecation $1 $2 }
+deprec : src_loc STRING { Deprecation (IEModuleContents undefined) $2 $1 }
+ | src_loc deprec_name STRING { Deprecation $2 $3 $1 }
-- SUP: TEMPORARY HACK
deprec_name :: { RdrNameIE }
-----------------------------------------------------------------------------
version :: { Version }
-version : INTEGER { fromInteger $1 }
+version : INTEGER { fromInteger $1 }
-decl_context :: { RdrNameContext }
-decl_context : { [] }
- | '{' context_list1 '}' '=>' { $2 }
+opt_version :: { Version }
+opt_version : version { $1 }
+ | {- empty -} { initialVersion }
+
+opt_decl_context :: { RdrNameContext }
+opt_decl_context : { [] }
+ | context '=>' { $1 }
----------------------------------------------------------------------------
| src_loc ex_stuff data_name '{' fields1 '}' { mk_con_decl $3 $2 (RecCon $5) $1 }
-- We use "data_fs" so as to include ()
-newtype_constr :: { [RdrNameConDecl] {- Empty if handwritten abstract -} }
-newtype_constr : { [] }
- | src_loc '=' ex_stuff data_name atype { [mk_con_decl $4 $3 (NewCon $5 Nothing) $1] }
+newtype_constr :: { [RdrNameConDecl] {- Not allowed to be empty -} }
+newtype_constr : src_loc '=' ex_stuff data_name atype { [mk_con_decl $4 $3 (VanillaCon [Unbanged $5]) $1] }
| src_loc '=' ex_stuff data_name '{' var_name '::' atype '}'
- { [mk_con_decl $4 $3 (NewCon $8 (Just $6)) $1] }
+ { [mk_con_decl $4 $3 (RecCon [([$6], Unbanged $8)]) $1] }
-ex_stuff :: { ([HsTyVar RdrName], RdrNameContext) }
+ex_stuff :: { ([HsTyVarBndr RdrName], RdrNameContext) }
ex_stuff : { ([],[]) }
- | '__forall' forall context '=>' { ($2,$3) }
+ | '__forall' tv_bndrs opt_context '=>' { ($2,$3) }
batypes :: { [RdrNameBangType] }
batypes : { [] }
type :: { RdrNameHsType }
type : '__fuall' fuall '=>' type { mkHsUsForAllTy $2 $4 }
- | '__forall' forall context '=>' type
- { mkHsForAllTy (Just $2) $3 $5 }
- | btype '->' type { MonoFunTy $1 $3 }
+ | '__forall' tv_bndrs
+ opt_context '=>' type { mkHsForAllTy (Just $2) $3 $5 }
+ | btype '->' type { HsFunTy $1 $3 }
| btype { $1 }
fuall :: { [RdrName] }
fuall : '[' uv_bndrs ']' { $2 }
-forall :: { [HsTyVar RdrName] }
-forall : '[' tv_bndrs ']' { $2 }
+opt_context :: { RdrNameContext }
+opt_context : { [] }
+ | context { $1 }
context :: { RdrNameContext }
-context : { [] }
- | '{' context_list1 '}' { $2 }
+context : '(' context_list1 ')' { $2 }
+ | '{' context_list1 '}' { $2 } -- Backward compatibility
context_list1 :: { RdrNameContext }
context_list1 : class { [$1] }
btype :: { RdrNameHsType }
btype : atype { $1 }
- | btype atype { MonoTyApp $1 $2 }
- | '__u' usage atype { MonoUsgTy $2 $3 }
+ | btype atype { HsAppTy $1 $2 }
+ | '__u' usage atype { HsUsgTy $2 $3 }
-usage :: { MonoUsageAnn RdrName }
-usage : '-' { MonoUsOnce }
- | '!' { MonoUsMany }
- | uv_name { MonoUsVar $1 }
+usage :: { HsUsageAnn RdrName }
+usage : '-' { HsUsOnce }
+ | '!' { HsUsMany }
+ | uv_name { HsUsVar $1 }
atype :: { RdrNameHsType }
-atype : qtc_name { MonoTyVar $1 }
- | tv_name { MonoTyVar $1 }
- | '(' types2 ')' { MonoTupleTy $2 True{-boxed-} }
- | '(#' types0 '#)' { MonoTupleTy $2 False{-unboxed-} }
- | '[' type ']' { MonoListTy $2 }
- | '{' qcls_name atypes '}' { MonoDictTy $2 $3 }
- | '{' ipvar_name '::' type '}' { MonoIParamTy $2 $4 }
+atype : qtc_name { HsTyVar $1 }
+ | tv_name { HsTyVar $1 }
+ | '(' ')' { HsTupleTy (mkHsTupCon tcName Boxed []) [] }
+ | '(' types2 ')' { HsTupleTy (mkHsTupCon tcName Boxed $2) $2 }
+ | '(#' types0 '#)' { HsTupleTy (mkHsTupCon tcName Unboxed $2) $2 }
+ | '[' type ']' { HsListTy $2 }
+ | '{' qcls_name atypes '}' { mkHsDictTy $2 $3 }
+ | '{' ipvar_name '::' type '}' { mkHsIParamTy $2 $4 }
| '(' type ')' { $2 }
--- This one is dealt with via qtc_name
--- | '(' ')' { MonoTupleTy [] True }
-
atypes :: { [RdrNameHsType] {- Zero or more -} }
atypes : { [] }
| atype atypes { $1 : $2 }
---------------------------------------------------------------------
-mod_fs :: { EncodedFS }
- : CONID { $1 }
+package :: { PackageName }
+ : STRING { $1 }
+ | {- empty -} { opt_InPackage } -- Useful for .hi-boot files,
+ -- which can omit the package Id
+ -- Module loops are always within a package
mod_name :: { ModuleName }
- : mod_fs { mkSysModuleFS $1 }
+ : CONID { mkSysModuleNameFS $1 }
---------------------------------------------------
: VARID { mkSysUnqual tvName $1 }
| VARSYM { mkSysUnqual tvName $1 {- Allow t2 as a tyvar -} }
-tv_bndr :: { HsTyVar RdrName }
+tv_bndr :: { HsTyVarBndr RdrName }
: tv_name '::' akind { IfaceTyVar $1 $3 }
| tv_name { IfaceTyVar $1 boxedTypeKind }
-tv_bndrs :: { [HsTyVar RdrName] }
+tv_bndrs :: { [HsTyVarBndr RdrName] }
+tv_bndrs : tv_bndrs1 { $1 }
+ | '[' tv_bndrs1 ']' { $2 } -- Backward compatibility
+
+tv_bndrs1 :: { [HsTyVarBndr RdrName] }
: { [] }
- | tv_bndr tv_bndrs { $1 : $2 }
+ | tv_bndr tv_bndrs1 { $1 : $2 }
---------------------------------------------------
fds :: { [([RdrName], [RdrName])] }
: '__A' INTEGER { HsArity (exactArity (fromInteger $2)) }
| '__U' inline_prag core_expr { HsUnfold $2 $3 }
| '__M' { HsCprInfo }
- | '__S' { HsStrictness (HsStrictnessInfo $1) }
+ | '__S' { HsStrictness (mkStrictnessInfo $1) }
| '__C' { HsNoCafRefs }
| '__P' qvar_name { HsWorker $2 }
inline_prag :: { InlinePragInfo }
: {- empty -} { NoInlinePragInfo }
- | '[' INTEGER ']' { IMustNotBeINLINEd True (Just (fromInteger $2)) } -- INLINE n
- | '[' '!' INTEGER ']' { IMustNotBeINLINEd False (Just (fromInteger $3)) } -- NOINLINE n
+ | '[' from_prag phase ']' { IMustNotBeINLINEd $2 $3 }
+
+from_prag :: { Bool }
+ : {- empty -} { True }
+ | '!' { False }
+
+phase :: { Maybe Int }
+ : {- empty -} { Nothing }
+ | INTEGER { Just (fromInteger $1) }
-------------------------------------------------------
core_expr :: { UfExpr RdrName }
| '__litlit' STRING atype { UfLitLit $2 $3 }
- | '__inline_me' core_expr { UfNote UfInlineMe $2 }
- | '__inline_call' 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 }
+ | scc core_aexpr { UfNote (UfSCC $1) $2 }
+ | '__inline_me' core_aexpr { UfNote UfInlineMe $2 }
+ | '__inline_call' core_aexpr { UfNote UfInlineCall $2 }
+ | '__coerce' atype core_aexpr { UfNote (UfCoerce $2) $3 }
| core_aexpr { $1 }
core_arg :: { UfExpr RdrName }
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 {}).
-
--- This one is dealt with by qdata_name: see above comments
--- | '(' ')' { UfTuple (mkTupConRdrName 0) [] }
| core_lit { UfLit $1 }
| '(' core_expr ')' { $2 }
- -- Tuple construtors are for the *worker* of the tuple
- -- Going direct saves needless messing about
- | '(' comma_exprs2 ')' { UfTuple (mkRdrNameWkr (mkTupConRdrName (length $2))) $2 }
- | '(#' comma_exprs0 '#)' { UfTuple (mkRdrNameWkr (mkUbxTupConRdrName (length $2))) $2 }
+ | '(' ')' { UfTuple (mkHsTupCon dataName Boxed []) [] }
+ | '(' comma_exprs2 ')' { UfTuple (mkHsTupCon dataName Boxed $2) $2 }
+ | '(#' comma_exprs0 '#)' { UfTuple (mkHsTupCon dataName Unboxed $2) $2 }
| '{' '__ccall' ccall_string type '}'
{ let
| 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_pat : core_lit { (UfLitAlt $1, []) }
| '__litlit' STRING atype { (UfLitLitAlt $2 $3, []) }
| qdata_name core_pat_names { (UfDataAlt $1, $2) }
- | '(' comma_var_names1 ')' { (UfDataAlt (mkTupConRdrName (length $2)), $2) }
- | '(#' comma_var_names1 '#)' { (UfDataAlt (mkUbxTupConRdrName (length $2)), $2) }
+ | '(' ')' { (UfTupleAlt (mkHsTupCon dataName Boxed []), []) }
+ | '(' comma_var_names1 ')' { (UfTupleAlt (mkHsTupCon dataName Boxed $2), $2) }
+ | '(#' comma_var_names1 '#)' { (UfTupleAlt (mkHsTupCon dataName Unboxed $2), $2) }
| '__DEFAULT' { (UfDefault, []) }
| '(' core_pat ')' { $2 }
| '__int64' integer { mkMachInt64 $2 }
| '__float' rational { MachFloat $2 }
| '__addr' integer { MachAddr $2 }
+ | '__label' STRING { MachLabel $2 }
integer :: { Integer }
: INTEGER { $1 }
src_loc :: { SrcLoc }
src_loc : {% getSrcLocP }
+-- Check the project version: this makes sure
+-- that the project version (e.g. 407) in the interface
+-- file is the same as that for the compiler that's reading it
checkVersion :: { () }
: {-empty-} {% checkVersion Nothing }
| INTEGER {% checkVersion (Just (fromInteger $1)) }
happyError :: P a
happyError buf PState{ loc = loc } = PFailed (ifaceParseErr buf loc)
-data IfaceStuff = PIface EncodedFS{-.hi module name-} ParsedIface
+data IfaceStuff = PIface ParsedIface
| PIdInfo [HsIdInfo RdrName]
| PType RdrNameHsType
| PRules [RdrNameRuleDecl]