{-
-----------------------------------------------------------------------------
-$Id: Parser.y,v 1.14 1999/09/01 14:08:19 sof Exp $
+$Id: Parser.y,v 1.56 2001/04/05 11:54:37 simonpj Exp $
Haskell grammar.
-}
{
-module Parser ( parse ) where
+module Parser ( parseModule, parseStmt ) where
import HsSyn
-import HsPragmas
+import HsTypes ( mkHsTupCon )
import RdrHsSyn
import Lex
import ParseUtil
import RdrName
-import PrelMods ( mAIN_Name )
-import OccName ( varName, dataName, tcClsName, tvName )
+import PrelNames ( mAIN_Name, unitTyCon_RDR, funTyCon_RDR, listTyCon_RDR,
+ tupleTyCon_RDR, unitCon_RDR, nilCon_RDR, tupleCon_RDR
+ )
+import OccName ( UserFS, varName, tcName, dataName, tcClsName, tvName )
import SrcLoc ( SrcLoc )
import Module
import CallConv
import CmdLineOpts ( opt_SccProfilingOn )
-import BasicTypes ( Fixity(..), FixityDirection(..), NewOrData(..) )
+import BasicTypes ( Boxity(..), Fixity(..), FixityDirection(..), NewOrData(..) )
import Panic
import GlaExts
+import FastString ( tailFS )
+import Outputable
#include "HsVersions.h"
}
{-
-----------------------------------------------------------------------------
Conflicts: 14 shift/reduce
+ (note: it's currently 21 -- JRL, 31/1/2000)
8 for abiguity in 'if x then y else z + 1'
(shift parses as 'if x then y else (z + 1)', as per longest-parse rule)
'then' { ITthen }
'type' { ITtype }
'where' { ITwhere }
- '_scc_' { ITscc }
+ '_scc_' { ITscc } -- ToDo: remove
'forall' { ITforall } -- GHC extension keywords
'foreign' { ITforeign }
'label' { ITlabel }
'dynamic' { ITdynamic }
'unsafe' { ITunsafe }
+ 'with' { ITwith }
'stdcall' { ITstdcallconv }
'ccall' { ITccallconv }
'_ccall_' { ITccall (False, False, False) }
'{-# INLINE' { ITinline_prag }
'{-# NOINLINE' { ITnoinline_prag }
'{-# RULES' { ITrules_prag }
+ '{-# SCC' { ITscc_prag }
+ '{-# DEPRECATED' { ITdeprecated_prag }
'#-}' { ITclose_prag }
{-
'__float' { ITfloat_lit }
'__rational' { ITrational_lit }
'__addr' { ITaddr_lit }
+ '__label' { ITlabel_lit }
'__litlit' { ITlit_lit }
'__string' { ITstring_lit }
'__ccall' { ITccall $$ }
'!' { ITbang }
'.' { ITdot }
- '/\\' { ITbiglam } -- GHC-extension symbols
-
'{' { ITocurly } -- special symbols
'}' { ITccurly }
+ '{|' { ITocurlybar }
+ '|}' { ITccurlybar }
vccurly { ITvccurly } -- virtual close curly (from layout)
'[' { ITobrack }
']' { ITcbrack }
QVARSYM { ITqvarsym $$ }
QCONSYM { ITqconsym $$ }
- PRAGMA { ITpragma $$ }
+ IPVARID { ITipvarid $$ } -- GHC extension
CHAR { ITchar $$ }
STRING { ITstring $$ }
PRIMSTRING { ITprimstring $$ }
PRIMINTEGER { ITprimint $$ }
PRIMFLOAT { ITprimfloat $$ }
- PRIMDOUBLE { ITprimdouble $$ }
+ PRIMDOUBLE { ITprimdouble $$ }
CLITLIT { ITlitlit $$ }
- UNKNOWN { ITunknown $$ }
-
%monad { P } { thenP } { returnP }
%lexer { lexer } { ITeof }
-%name parse
+%name parseModule module
+%name parseStmt maybe_stmt
%tokentype { Token }
%%
-----------------------------------------------------------------------------
-- Module Header
+-- The place for module deprecation is really too restrictive, but if it
+-- was allowed at its natural place just before 'module', we get an ugly
+-- s/r conflict with the second alternative. Another solution would be the
+-- introduction of a new pragma DEPRECATED_MODULE, but this is not very nice,
+-- either, and DEPRECATED is only expected to be used by people who really
+-- know what they are doing. :-)
+
module :: { RdrNameHsModule }
- : srcloc 'module' modid maybeexports 'where' body
- { HsModule $3 Nothing $4 (fst $6) (snd $6) $1 }
- | srcloc body
- { HsModule mAIN_Name Nothing Nothing (fst $2) (snd $2) $1 }
+ : srcloc 'module' modid maybemoddeprec maybeexports 'where' body
+ { HsModule $3 Nothing $5 (fst $7) (snd $7) $4 $1 }
+ | srcloc body
+ { HsModule mAIN_Name Nothing Nothing (fst $2) (snd $2) Nothing $1 }
+
+maybemoddeprec :: { Maybe DeprecTxt }
+ : '{-# DEPRECATED' STRING '#-}' { Just $2 }
+ | {- empty -} { Nothing }
body :: { ([RdrNameImportDecl], [RdrNameHsDecl]) }
: '{' top '}' { $2 }
| layout_on top close { $2 }
top :: { ([RdrNameImportDecl], [RdrNameHsDecl]) }
- : importdecls ';' cvtopdecls { (reverse $1,$3) }
- | importdecls { (reverse $1,[]) }
+ : importdecls { (reverse $1,[]) }
+ | importdecls ';' cvtopdecls { (reverse $1,$3) }
| cvtopdecls { ([],$1) }
cvtopdecls :: { [RdrNameHsDecl] }
importdecl :: { RdrNameImportDecl }
: 'import' srcloc maybe_src optqualified CONID maybeas maybeimpspec
- { ImportDecl (mkSrcModuleFS $5) $3 $4 $6 $7 $2 }
+ { ImportDecl (mkModuleNameFS $5) $3 $4 $6 $7 $2 }
maybe_src :: { WhereFrom }
: '{-# SOURCE' '#-}' { ImportByUserSource }
| topdecl { [$1] }
topdecl :: { RdrBinding }
- : srcloc 'type' simpletype '=' type
+ : srcloc 'type' simpletype '=' ctype
+ -- Note ctype, not sigtype.
+ -- We allow an explicit for-all but we don't insert one
+ -- in type Foo a = (b,b)
+ -- Instead we just say b is out of scope
{ RdrHsDecl (TyClD (TySynonym (fst $3) (snd $3) $5 $1)) }
| srcloc 'data' ctype '=' constrs deriving
{% checkDataHeader $3 `thenP` \(cs,c,ts) ->
returnP (RdrHsDecl (TyClD
- (TyData DataType cs c ts (reverse $5) $6
- NoDataPragmas $1))) }
+ (mkTyData DataType cs c ts (reverse $5) (length $5) $6 $1))) }
| srcloc 'newtype' ctype '=' newconstr deriving
{% checkDataHeader $3 `thenP` \(cs,c,ts) ->
returnP (RdrHsDecl (TyClD
- (TyData NewType cs c ts [$5] $6
- NoDataPragmas $1))) }
+ (mkTyData NewType cs c ts [$5] 1 $6 $1))) }
- | srcloc 'class' ctype where
+ | srcloc 'class' ctype fds where
{% checkDataHeader $3 `thenP` \(cs,c,ts) ->
- let (binds,sigs)
- = cvMonoBindsAndSigs cvClassOpSig
- (groupBindings $4)
+ let
+ (binds,sigs) = cvMonoBindsAndSigs cvClassOpSig (groupBindings $5)
in
returnP (RdrHsDecl (TyClD
- (mkClassDecl cs c ts sigs binds
- NoClassPragmas $1))) }
+ (mkClassDecl cs c ts $4 sigs (Just binds) $1))) }
| srcloc 'instance' inst_type where
{ let (binds,sigs)
= cvMonoBindsAndSigs cvInstDeclSig
(groupBindings $4)
- in RdrHsDecl (InstD
- (InstDecl $3 binds sigs dummyRdrVarName $1)) }
+ in RdrHsDecl (InstD (InstDecl $3 binds sigs Nothing $1)) }
| srcloc 'default' '(' types0 ')'
{ RdrHsDecl (DefD (DefaultDecl $4 $1)) }
{ RdrHsDecl (ForD (ForeignDecl $5 FoLabel $7 (mkExtName $4 $5)
defaultCallConv $1)) }
- | decl { $1 }
+ | '{-# DEPRECATED' deprecations '#-}' { $2 }
+ | '{-# RULES' rules '#-}' { $2 }
+ | decl { $1 }
decls :: { [RdrBinding] }
: decls ';' decl { $3 : $1 }
| {- empty -} { [] }
decl :: { RdrBinding }
- : signdecl { $1 }
- | fixdecl { $1 }
- | valdef { RdrValBinding $1 }
- | '{-# INLINE' srcloc qvar '#-}' { RdrSig (InlineSig $3 $2) }
- | '{-# NOINLINE' srcloc qvar '#-}' { RdrSig (NoInlineSig $3 $2) }
+ : fixdecl { $1 }
+ | valdef { $1 }
+ | '{-# INLINE' srcloc opt_phase qvar '#-}' { RdrSig (InlineSig $4 $3 $2) }
+ | '{-# NOINLINE' srcloc opt_phase qvar '#-}' { RdrSig (NoInlineSig $4 $3 $2) }
| '{-# SPECIALISE' srcloc qvar '::' sigtypes '#-}'
{ foldr1 RdrAndBindings
(map (\t -> RdrSig (SpecSig $3 t $2)) $5) }
| '{-# SPECIALISE' srcloc 'instance' inst_type '#-}'
{ RdrSig (SpecInstSig $4 $2) }
- | '{-# RULES' rules '#-}' { $2 }
-sigtypes :: { [RdrNameHsType] }
- : sigtype { [ $1 ] }
- | sigtypes ',' sigtype { $3 : $1 }
+opt_phase :: { Maybe Int }
+ : INTEGER { Just (fromInteger $1) }
+ | {- empty -} { Nothing }
wherebinds :: { RdrNameHsBinds }
: where { cvBinds cvValSig (groupBindings $1) }
(Fixity $3 $2) $1))
| n <- $4 ] }
-signdecl :: { RdrBinding }
- : vars srcloc '::' sigtype { foldr1 RdrAndBindings
- [ RdrSig (Sig n $4 $2) | n <- $1 ] }
-
-sigtype :: { RdrNameHsType }
- : ctype { mkHsForAllTy Nothing [] $1 }
-
-{-
- ATTENTION: Dirty Hackery Ahead! If the second alternative of vars is var
- instead of qvar, we get another shift/reduce-conflict. Consider the
- following programs:
-
- { (+) :: ... } only var
- { (+) x y = ... } could (incorrectly) be qvar
-
- We re-use expressions for patterns, so a qvar would be allowed in patterns
- instead of a var only (which would be correct). But deciding what the + is,
- would require more lookahead. So let's check for ourselves...
--}
-
-vars :: { [RdrName] }
- : vars ',' var { $3 : $1 }
- | qvar { [ $1 ] }
-
-----------------------------------------------------------------------------
-- Transformation Rules
rule :: { RdrBinding }
: STRING rule_forall fexp '=' srcloc exp
- { RdrHsDecl (RuleD (RuleDecl $1 [] $2 $3 $6 $5)) }
+ { RdrHsDecl (RuleD (HsRule $1 [] $2 $3 $6 $5)) }
rule_forall :: { [RdrNameRuleBndr] }
: 'forall' rule_var_list '.' { $2 }
rule_var_list :: { [RdrNameRuleBndr] }
: rule_var { [$1] }
- | rule_var ',' rule_var_list { $1 : $3 }
+ | rule_var rule_var_list { $1 : $2 }
rule_var :: { RdrNameRuleBndr }
: varid { RuleBndr $1 }
- | varid '::' ctype { RuleBndrSig $1 $3 }
+ | '(' varid '::' ctype ')' { RuleBndrSig $2 $4 }
+
+-----------------------------------------------------------------------------
+-- Deprecations
+
+deprecations :: { RdrBinding }
+ : deprecations ';' deprecation { $1 `RdrAndBindings` $3 }
+ | deprecations ';' { $1 }
+ | deprecation { $1 }
+ | {- empty -} { RdrNullBind }
+
+-- SUP: TEMPORARY HACK, not checking for `module Foo'
+deprecation :: { RdrBinding }
+ : srcloc depreclist STRING
+ { foldr RdrAndBindings RdrNullBind
+ [ RdrHsDecl (DeprecD (Deprecation n $3 $1)) | n <- $2 ] }
-----------------------------------------------------------------------------
-- Foreign import/export
| STRING STRING { Just (ExtName $2 (Just $1)) }
| {- empty -} { Nothing }
+
+-----------------------------------------------------------------------------
+-- Type signatures
+
+opt_sig :: { Maybe RdrNameHsType }
+ : {- empty -} { Nothing }
+ | '::' sigtype { Just $2 }
+
+opt_asig :: { Maybe RdrNameHsType }
+ : {- empty -} { Nothing }
+ | '::' atype { Just $2 }
+
+sigtypes :: { [RdrNameHsType] }
+ : sigtype { [ $1 ] }
+ | sigtypes ',' sigtype { $3 : $1 }
+
+sigtype :: { RdrNameHsType }
+ : ctype { (mkHsForAllTy Nothing [] $1) }
+
+sig_vars :: { [RdrName] }
+ : sig_vars ',' var { $3 : $1 }
+ | var { [ $1 ] }
+
-----------------------------------------------------------------------------
-- Types
-{- ToDo: forall stuff -}
+-- A ctype is a for-all type
+ctype :: { RdrNameHsType }
+ : 'forall' tyvars '.' ctype { mkHsForAllTy (Just $2) [] $4 }
+ | context type { mkHsForAllTy Nothing $1 $2 }
+ -- A type of form (context => type) is an *implicit* HsForAllTy
+ | type { $1 }
type :: { RdrNameHsType }
- : btype '->' type { MonoFunTy $1 $3 }
- | btype { $1 }
+ : gentype '->' type { HsFunTy $1 $3 }
+ | ipvar '::' type { mkHsIParamTy $1 $3 }
+ | gentype { $1 }
+
+gentype :: { RdrNameHsType }
+ : btype { $1 }
+-- Generics
+ | atype tyconop atype { HsOpTy $1 $2 $3 }
btype :: { RdrNameHsType }
- : btype atype { MonoTyApp $1 $2 }
+ : btype atype { (HsAppTy $1 $2) }
| atype { $1 }
atype :: { RdrNameHsType }
- : gtycon { MonoTyVar $1 }
- | tyvar { MonoTyVar $1 }
- | '(' type ',' types ')' { MonoTupleTy ($2 : reverse $4) True }
- | '(#' types '#)' { MonoTupleTy (reverse $2) False }
- | '[' type ']' { MonoListTy $2 }
- | '(' ctype ')' { $2 }
-
-gtycon :: { RdrName }
- : qtycon { $1 }
- | '(' ')' { unitTyCon_RDR }
- | '(' '->' ')' { funTyCon_RDR }
- | '[' ']' { listTyCon_RDR }
- | '(' commas ')' { tupleTyCon_RDR $2 }
+ : gtycon { HsTyVar $1 }
+ | tyvar { HsTyVar $1 }
+ | '(' type ',' types ')' { HsTupleTy (mkHsTupCon tcName Boxed ($2:$4)) ($2 : reverse $4) }
+ | '(#' types '#)' { HsTupleTy (mkHsTupCon tcName Unboxed $2) (reverse $2) }
+ | '[' type ']' { HsListTy $2 }
+ | '(' ctype ')' { $2 }
+-- Generics
+ | INTEGER { HsNumTy $1 }
-- An inst_type is what occurs in the head of an instance decl
-- e.g. (Foo a, Gaz b) => Wibble a b
inst_type :: { RdrNameHsType }
: ctype {% checkInstType $1 }
-ctype :: { RdrNameHsType }
- : 'forall' tyvars '.' context type
- { mkHsForAllTy (Just $2) $4 $5 }
- | 'forall' tyvars '.' type { mkHsForAllTy (Just $2) [] $4 }
- | context type { mkHsForAllTy Nothing $1 $2 }
- -- A type of form (context => type) is an *implicit* HsForAllTy
- | type { $1 }
-
types0 :: { [RdrNameHsType] }
- : types { $1 }
+ : types { reverse $1 }
| {- empty -} { [] }
types :: { [RdrNameHsType] }
: tyvars tyvar { UserTyVar $2 : $1 }
| {- empty -} { [] }
+fds :: { [([RdrName], [RdrName])] }
+ : {- empty -} { [] }
+ | '|' fds1 { reverse $2 }
+
+fds1 :: { [([RdrName], [RdrName])] }
+ : fds1 ',' fd { $3 : $1 }
+ | fd { [$1] }
+
+fd :: { ([RdrName], [RdrName]) }
+ : varids0 '->' varids0 { (reverse $1, reverse $3) }
+
+varids0 :: { [RdrName] }
+ : {- empty -} { [] }
+ | varids0 tyvar { $2 : $1 }
+
-----------------------------------------------------------------------------
-- Datatype declarations
+newconstr :: { RdrNameConDecl }
+ : srcloc conid atype { mkConDecl $2 [] [] (VanillaCon [Unbanged $3]) $1 }
+ | srcloc conid '{' var '::' type '}'
+ { mkConDecl $2 [] [] (RecCon [([$4], Unbanged $6)]) $1 }
+
constrs :: { [RdrNameConDecl] }
: constrs '|' constr { $3 : $1 }
| constr { [$1] }
constr :: { RdrNameConDecl }
: srcloc forall context constr_stuff
- { ConDecl (fst $4) $2 $3 (snd $4) $1 }
+ { mkConDecl (fst $4) $2 $3 (snd $4) $1 }
| srcloc forall constr_stuff
- { ConDecl (fst $3) $2 [] (snd $3) $1 }
+ { mkConDecl (fst $3) $2 [] (snd $3) $1 }
forall :: { [RdrNameHsTyVar] }
: 'forall' tyvars '.' { $2 }
: btype '=>' {% checkContext $1 }
constr_stuff :: { (RdrName, RdrNameConDetails) }
- : scontype { (fst $1, VanillaCon (snd $1)) }
+ : btype {% mkVanillaCon $1 [] }
+ | btype '!' atype satypes {% mkVanillaCon $1 (Banged $3 : $4) }
+ | gtycon '{' fielddecls '}' {% mkRecCon $1 $3 }
| sbtype conop sbtype { ($2, InfixCon $1 $3) }
- | con '{' fielddecls '}' { ($1, RecCon (reverse $3)) }
-
-newconstr :: { RdrNameConDecl }
- : srcloc conid atype { ConDecl $2 [] [] (NewCon $3 Nothing) $1 }
- | srcloc conid '{' var '::' type '}'
- { ConDecl $2 [] [] (NewCon $6 (Just $4)) $1 }
-
-scontype :: { (RdrName, [RdrNameBangType]) }
- : btype {% splitForConApp $1 [] }
- | scontype1 { $1 }
-
-scontype1 :: { (RdrName, [RdrNameBangType]) }
- : btype '!' atype {% splitForConApp $1 [Banged $3] }
- | scontype1 satype { (fst $1, snd $1 ++ [$2] ) }
-satype :: { RdrNameBangType }
- : atype { Unbanged $1 }
- | '!' atype { Banged $2 }
+satypes :: { [RdrNameBangType] }
+ : atype satypes { Unbanged $1 : $2 }
+ | '!' atype satypes { Banged $2 : $3 }
+ | {- empty -} { [] }
sbtype :: { RdrNameBangType }
: btype { Unbanged $1 }
| '!' atype { Banged $2 }
fielddecls :: { [([RdrName],RdrNameBangType)] }
- : fielddecls ',' fielddecl { $3 : $1 }
+ : fielddecl ',' fielddecls { $1 : $3 }
| fielddecl { [$1] }
fielddecl :: { ([RdrName],RdrNameBangType) }
- : vars '::' stype { (reverse $1, $3) }
+ : sig_vars '::' stype { (reverse $1, $3) }
stype :: { RdrNameBangType }
- : type { Unbanged $1 }
+ : ctype { Unbanged $1 }
| '!' atype { Banged $2 }
deriving :: { Maybe [RdrName] }
-----------------------------------------------------------------------------
-- Value definitions
-valdef :: { RdrNameMonoBinds }
- : infixexp {-ToDo: opt_sig-} srcloc rhs
- {% checkValDef $1 Nothing $3 $2 }
+{- There's an awkward overlap with a type signature. Consider
+ f :: Int -> Int = ...rhs...
+ Then we can't tell whether it's a type signature or a value
+ definition with a result signature until we see the '='.
+ So we have to inline enough to postpone reductions until we know.
+-}
+
+{-
+ ATTENTION: Dirty Hackery Ahead! If the second alternative of vars is var
+ instead of qvar, we get another shift/reduce-conflict. Consider the
+ following programs:
+
+ { (^^) :: Int->Int ; } Type signature; only var allowed
+
+ { (^^) :: Int->Int = ... ; } Value defn with result signature;
+ qvar allowed (because of instance decls)
+
+ We can't tell whether to reduce var to qvar until after we've read the signatures.
+-}
+
+valdef :: { RdrBinding }
+ : infixexp srcloc opt_sig rhs {% (checkValDef $1 $3 $4 $2) }
+ | infixexp srcloc '::' sigtype {% (checkValSig $1 $4 $2) }
+ | var ',' sig_vars srcloc '::' sigtype { foldr1 RdrAndBindings
+ [ RdrSig (Sig n $6 $4) | n <- $1:$3 ]
+ }
+
rhs :: { RdrNameGRHSs }
- : '=' srcloc exp wherebinds { GRHSs (unguardedRHS $3 $2)
- $4 Nothing}
+ : '=' srcloc exp wherebinds { (GRHSs (unguardedRHS $3 $2)
+ $4 Nothing)}
| gdrhs wherebinds { GRHSs (reverse $1) $2 Nothing }
gdrhs :: { [RdrNameGRHS] }
| gdrh { [$1] }
gdrh :: { RdrNameGRHS }
- : '|' srcloc quals '=' exp { GRHS (reverse
- (ExprStmt $5 $2 : $3)) $2 }
+ : '|' srcloc quals '=' exp { GRHS (reverse (ExprStmt $5 $2 : $3)) $2 }
-----------------------------------------------------------------------------
-- Expressions
exp :: { RdrNameHsExpr }
- : infixexp '::' sigtype { ExprWithTySig $1 $3 }
+ : infixexp '::' sigtype { (ExprWithTySig $1 $3) }
+ | infixexp 'with' dbinding { HsWith $1 $3 }
| infixexp { $1 }
infixexp :: { RdrNameHsExpr }
: exp10 { $1 }
- | infixexp qop exp10 { OpApp $1 $2 (panic "fixity") $3 }
+ | infixexp qop exp10 { (OpApp $1 (HsVar $2)
+ (panic "fixity") $3 )}
exp10 :: { RdrNameHsExpr }
: '\\' aexp aexps opt_asig '->' srcloc exp
| 'let' declbinds 'in' exp { HsLet $2 $4 }
| 'if' srcloc exp 'then' exp 'else' exp { HsIf $3 $5 $7 $2 }
| 'case' srcloc exp 'of' altslist { HsCase $3 $5 $2 }
- | '-' fexp { NegApp $2 (error "NegApp") }
- | srcloc 'do' stmtlist { HsDo DoStmt $3 $1 }
+ | '-' fexp { mkHsNegApp $2 }
+ | srcloc 'do' stmtlist { HsDo DoExpr $3 $1 }
- | '_ccall_' ccallid aexps0 { CCall $2 $3 False False cbot }
- | '_ccall_GC_' ccallid aexps0 { CCall $2 $3 True False cbot }
- | '_casm_' CLITLIT aexps0 { CCall $2 $3 False True cbot }
- | '_casm_GC_' CLITLIT aexps0 { CCall $2 $3 True True cbot }
+ | '_ccall_' ccallid aexps0 { HsCCall $2 $3 False False cbot }
+ | '_ccall_GC_' ccallid aexps0 { HsCCall $2 $3 True False cbot }
+ | '_casm_' CLITLIT aexps0 { HsCCall $2 $3 False True cbot }
+ | '_casm_GC_' CLITLIT aexps0 { HsCCall $2 $3 True True cbot }
- | '_scc_' STRING exp { if opt_SccProfilingOn
- then HsSCC $2 $3
- else HsPar $3 }
+ | scc_annot exp { if opt_SccProfilingOn
+ then HsSCC $1 $2
+ else HsPar $2 }
| fexp { $1 }
+scc_annot :: { FAST_STRING }
+ : '_scc_' STRING { $2 }
+ | '{-# SCC' STRING '#-}' { $2 }
+
ccallid :: { FAST_STRING }
: VARID { $1 }
| CONID { $1 }
fexp :: { RdrNameHsExpr }
- : fexp aexp { HsApp $1 $2 }
+ : fexp aexp { (HsApp $1 $2) }
| aexp { $1 }
aexps0 :: { [RdrNameHsExpr] }
- : aexps { reverse $1 }
+ : aexps { (reverse $1) }
aexps :: { [RdrNameHsExpr] }
: aexps aexp { $2 : $1 }
| {- empty -} { [] }
aexp :: { RdrNameHsExpr }
- : aexp '{' fbinds '}' {% mkRecConstrOrUpdate $1 (reverse $3) }
- | aexp1 { $1 }
+ : var_or_con '{|' gentype '|}' { (HsApp $1 (HsType $3)) }
+ | aexp '{' fbinds '}' {% (mkRecConstrOrUpdate $1
+ (reverse $3)) }
+ | aexp1 { $1 }
+
+var_or_con :: { RdrNameHsExpr }
+ : qvar { HsVar $1 }
+ | gcon { HsVar $1 }
aexp1 :: { RdrNameHsExpr }
- : qvar { HsVar $1 }
- | gcon { HsVar $1 }
- | literal { HsLit $1 }
+ : ipvar { HsIPVar $1 }
+ | var_or_con { $1 }
+ | literal { HsLit $1 }
+ | INTEGER { HsOverLit (HsIntegral $1) }
+ | RATIONAL { HsOverLit (HsFractional $1) }
| '(' exp ')' { HsPar $2 }
- | '(' exp ',' texps ')' { ExplicitTuple ($2 : reverse $4) True }
- | '(#' texps '#)' { ExplicitTuple (reverse $2) False }
+ | '(' exp ',' texps ')' { ExplicitTuple ($2 : reverse $4) Boxed}
+ | '(#' texps '#)' { ExplicitTuple (reverse $2) Unboxed }
| '[' list ']' { $2 }
- | '(' infixexp qop ')' { SectionL $2 $3 }
- | '(' qopm infixexp ')' { SectionR $2 $3 }
+ | '(' infixexp qop ')' { (SectionL $2 (HsVar $3)) }
+ | '(' qopm infixexp ')' { (SectionR $2 $3) }
| qvar '@' aexp { EAsPat $1 $3 }
| '_' { EWildPat }
| '~' aexp1 { ELazyPat $2 }
-commas :: { Int }
- : commas ',' { $1 + 1 }
- | ',' { 2 }
-
texps :: { [RdrNameHsExpr] }
: texps ',' exp { $3 : $1 }
| exp { [$1] }
+
-----------------------------------------------------------------------------
-- List expressions
| exp ',' exp '..' { ArithSeqIn (FromThen $1 $3) }
| exp '..' exp { ArithSeqIn (FromTo $1 $3) }
| exp ',' exp '..' exp { ArithSeqIn (FromThenTo $1 $3 $5) }
- | exp srcloc '|' quals { HsDo ListComp (reverse
- (ReturnStmt $1 : $4)) $2 }
+ | exp srcloc pquals {% let { body [qs] = qs;
+ body qss = [ParStmt (map reverse qss)] }
+ in
+ returnP ( HsDo ListComp
+ (reverse (ExprStmt $1 $2 : body $3))
+ $2
+ )
+ }
lexps :: { [RdrNameHsExpr] }
: lexps ',' exp { $3 : $1 }
-----------------------------------------------------------------------------
-- List Comprehensions
-quals :: { [RdrNameStmt] }
- : quals ',' qual { $3 : $1 }
- | qual { [$1] }
+pquals :: { [[RdrNameStmt]] }
+ : pquals '|' quals { $3 : $1 }
+ | '|' quals { [$2] }
-qual :: { RdrNameStmt }
- : srcloc infixexp '<-' exp {% checkPattern $2 `thenP` \p ->
- returnP (BindStmt p $4 $1) }
- | srcloc exp { GuardStmt $2 $1 }
- | srcloc 'let' declbinds { LetStmt $3 }
+quals :: { [RdrNameStmt] }
+ : quals ',' stmt { $3 : $1 }
+ | stmt { [$1] }
-----------------------------------------------------------------------------
-- Case alternatives
: '{' alts '}' { reverse $2 }
| layout_on alts close { reverse $2 }
+alts :: { [RdrNameMatch] }
+ : alts1 { $1 }
+ | ';' alts { $2 }
-alts :: { [RdrNameMatch] }
- : alts ';' alt { $3 : $1 }
- | alts ';' { $1 }
+alts1 :: { [RdrNameMatch] }
+ : alts1 ';' alt { $3 : $1 }
+ | alts1 ';' { $1 }
| alt { [$1] }
- | {- empty -} { [] }
alt :: { RdrNameMatch }
: infixexp opt_sig ralt wherebinds
- {% checkPattern $1 `thenP` \p ->
+ {% (checkPattern $1 `thenP` \p ->
returnP (Match [] [p] $2
- (GRHSs $3 $4 Nothing)) }
-
-opt_sig :: { Maybe RdrNameHsType }
- : {- empty -} { Nothing }
- | '::' type { Just $2 }
-
-opt_asig :: { Maybe RdrNameHsType }
- : {- empty -} { Nothing }
- | '::' atype { Just $2 }
+ (GRHSs $3 $4 Nothing)) )}
ralt :: { [RdrNameGRHS] }
: '->' srcloc exp { [GRHS [ExprStmt $3 $2] $2] }
| stmts1 ';' { $1 }
| stmt { [$1] }
+-- for typing stmts at the GHCi prompt, where the input may consist of
+-- just comments.
+maybe_stmt :: { Maybe RdrNameStmt }
+ : stmt { Just $1 }
+ | {- nothing -} { Nothing }
+
stmt :: { RdrNameStmt }
: srcloc infixexp '<-' exp {% checkPattern $2 `thenP` \p ->
returnP (BindStmt p $4 $1) }
: qvar '=' exp { ($1,$3,False) }
-----------------------------------------------------------------------------
+-- Implicit Parameter Bindings
+
+dbinding :: { [(RdrName, RdrNameHsExpr)] }
+ : '{' dbinds '}' { $2 }
+ | layout_on dbinds close { $2 }
+
+dbinds :: { [(RdrName, RdrNameHsExpr)] }
+ : dbinds ';' dbind { $3 : $1 }
+ | dbinds ';' { $1 }
+ | dbind { [$1] }
+ | {- empty -} { [] }
+
+dbind :: { (RdrName, RdrNameHsExpr) }
+dbind : ipvar '=' exp { ($1, $3) }
+
+-----------------------------------------------------------------------------
-- Variables, Constructors and Operators.
+depreclist :: { [RdrName] }
+depreclist : deprec_var { [$1] }
+ | deprec_var ',' depreclist { $1 : $3 }
+
+deprec_var :: { RdrName }
+deprec_var : var { $1 }
+ | tycon { $1 }
+
+gtycon :: { RdrName }
+ : qtycon { $1 }
+ | '(' qtyconop ')' { $2 }
+ | '(' ')' { unitTyCon_RDR }
+ | '(' '->' ')' { funTyCon_RDR }
+ | '[' ']' { listTyCon_RDR }
+ | '(' commas ')' { tupleTyCon_RDR $2 }
+
gcon :: { RdrName }
: '(' ')' { unitCon_RDR }
| '[' ']' { nilCon_RDR }
qvar :: { RdrName }
: qvarid { $1 }
- | '(' qvarsym ')' { $2 }
+ | '(' varsym ')' { $2 }
+ | '(' qvarsym1 ')' { $2 }
+-- We've inlined qvarsym here so that the decision about
+-- whether it's a qvar or a var can be postponed until
+-- *after* we see the close paren.
-con :: { RdrName }
- : conid { $1 }
- | '(' consym ')' { $2 }
+ipvar :: { RdrName }
+ : IPVARID { (mkUnqual varName (tailFS $1)) }
qcon :: { RdrName }
: qconid { $1 }
| '`' qvarid '`' { $2 }
qvaropm :: { RdrName }
- : qvarsymm { $1 }
+ : qvarsym_no_minus { $1 }
| '`' qvarid '`' { $2 }
conop :: { RdrName }
: varop { $1 }
| conop { $1 }
-qop :: { RdrNameHsExpr } -- used in sections
- : qvarop { HsVar $1 }
- | qconop { HsVar $1 }
+qop :: { RdrName {-HsExpr-} } -- used in sections
+ : qvarop { $1 }
+ | qconop { $1 }
qopm :: { RdrNameHsExpr } -- used in sections
: qvaropm { HsVar $1 }
qvarid :: { RdrName }
: varid { $1 }
- | QVARID { case $1 of { (mod,n) ->
- mkSrcQual varName mod n } }
+ | QVARID { mkQual varName $1 }
varid :: { RdrName }
- : VARID { mkSrcUnqual varName $1 }
- | 'as' { as_var_RDR }
- | 'qualified' { qualified_var_RDR }
- | 'hiding' { hiding_var_RDR }
- | 'forall' { forall_var_RDR }
- | 'export' { export_var_RDR }
- | 'label' { label_var_RDR }
- | 'dynamic' { dynamic_var_RDR }
- | 'unsafe' { unsafe_var_RDR }
- | 'stdcall' { stdcall_var_RDR }
- | 'ccall' { ccall_var_RDR }
+ : varid_no_unsafe { $1 }
+ | 'unsafe' { mkUnqual varName SLIT("unsafe") }
varid_no_unsafe :: { RdrName }
- : VARID { mkSrcUnqual varName $1 }
- | 'as' { as_var_RDR }
- | 'qualified' { qualified_var_RDR }
- | 'hiding' { hiding_var_RDR }
- | 'forall' { forall_var_RDR }
- | 'export' { export_var_RDR }
- | 'label' { label_var_RDR }
- | 'dynamic' { dynamic_var_RDR }
- | 'stdcall' { stdcall_var_RDR }
- | 'ccall' { ccall_var_RDR }
+ : VARID { mkUnqual varName $1 }
+ | special_id { mkUnqual varName $1 }
+ | 'forall' { mkUnqual varName SLIT("forall") }
+
+tyvar :: { RdrName }
+ : VARID { mkUnqual tvName $1 }
+ | special_id { mkUnqual tvName $1 }
+ | 'unsafe' { mkUnqual tvName SLIT("unsafe") }
+
+-- These special_ids are treated as keywords in various places,
+-- but as ordinary ids elsewhere. A special_id collects all thsee
+-- except 'unsafe' and 'forall' whose treatment differs depending on context
+special_id :: { UserFS }
+special_id
+ : 'as' { SLIT("as") }
+ | 'qualified' { SLIT("qualified") }
+ | 'hiding' { SLIT("hiding") }
+ | 'export' { SLIT("export") }
+ | 'label' { SLIT("label") }
+ | 'dynamic' { SLIT("dynamic") }
+ | 'stdcall' { SLIT("stdcall") }
+ | 'ccall' { SLIT("ccall") }
-----------------------------------------------------------------------------
-- ConIds
qconid :: { RdrName }
: conid { $1 }
- | QCONID { case $1 of { (mod,n) ->
- mkSrcQual dataName mod n } }
+ | QCONID { mkQual dataName $1 }
conid :: { RdrName }
- : CONID { mkSrcUnqual dataName $1 }
+ : CONID { mkUnqual dataName $1 }
-----------------------------------------------------------------------------
-- ConSyms
qconsym :: { RdrName }
: consym { $1 }
- | QCONSYM { case $1 of { (mod,n) ->
- mkSrcQual dataName mod n } }
+ | QCONSYM { mkQual dataName $1 }
consym :: { RdrName }
- : CONSYM { mkSrcUnqual dataName $1 }
+ : CONSYM { mkUnqual dataName $1 }
-----------------------------------------------------------------------------
-- VarSyms
: varsym { $1 }
| qvarsym1 { $1 }
-qvarsymm :: { RdrName }
- : varsymm { $1 }
+qvarsym_no_minus :: { RdrName }
+ : varsym_no_minus { $1 }
| qvarsym1 { $1 }
+qvarsym1 :: { RdrName }
+qvarsym1 : QVARSYM { mkQual varName $1 }
+
varsym :: { RdrName }
- : VARSYM { mkSrcUnqual varName $1 }
- | '-' { minus_RDR }
- | '!' { pling_RDR }
- | '.' { dot_RDR }
+ : varsym_no_minus { $1 }
+ | '-' { mkUnqual varName SLIT("-") }
-varsymm :: { RdrName } -- varsym not including '-'
- : VARSYM { mkSrcUnqual varName $1 }
- | '!' { pling_RDR }
- | '.' { dot_RDR }
+varsym_no_minus :: { RdrName } -- varsym not including '-'
+ : VARSYM { mkUnqual varName $1 }
+ | special_sym { mkUnqual varName $1 }
-qvarsym1 :: { RdrName }
- : QVARSYM { case $1 of { (mod,n) ->
- mkSrcQual varName mod n } }
-literal :: { HsLit }
- : INTEGER { HsInt $1 }
- | CHAR { HsChar $1 }
- | RATIONAL { HsFrac $1 }
- | STRING { HsString $1 }
+-- See comments with special_id
+special_sym :: { UserFS }
+special_sym : '!' { SLIT("!") }
+ | '.' { SLIT(".") }
+-----------------------------------------------------------------------------
+-- Literals
+
+literal :: { HsLit }
+ : CHAR { HsChar $1 }
+ | STRING { HsString $1 }
| PRIMINTEGER { HsIntPrim $1 }
| PRIMCHAR { HsCharPrim $1 }
| PRIMSTRING { HsStringPrim $1 }
| PRIMFLOAT { HsFloatPrim $1 }
| PRIMDOUBLE { HsDoublePrim $1 }
- | CLITLIT { HsLitLit $1 }
+ | CLITLIT { HsLitLit $1 (error "Parser.y: CLITLIT") }
srcloc :: { SrcLoc } : {% getSrcLocP }
-- Miscellaneous (mostly renamings)
modid :: { ModuleName }
- : CONID { mkSrcModuleFS $1 }
+ : CONID { mkModuleNameFS $1 }
tycon :: { RdrName }
- : CONID { mkSrcUnqual tcClsName $1 }
+ : CONID { mkUnqual tcClsName $1 }
+
+tyconop :: { RdrName }
+ : CONSYM { mkUnqual tcClsName $1 }
qtycon :: { RdrName }
: tycon { $1 }
- | QCONID { case $1 of { (mod,n) ->
- mkSrcQual tcClsName mod n } }
+ | QCONID { mkQual tcClsName $1 }
+
+qtyconop :: { RdrName }
+ : tyconop { $1 }
+ | QCONSYM { mkQual tcClsName $1 }
qtycls :: { RdrName }
: qtycon { $1 }
-tyvar :: { RdrName }
- : VARID { mkSrcUnqual tvName $1 }
- | 'as' { as_tyvar_RDR }
- | 'qualified' { qualified_tyvar_RDR }
- | 'hiding' { hiding_tyvar_RDR }
- | 'export' { export_tyvar_RDR }
- | 'label' { label_tyvar_RDR }
- | 'dynamic' { dynamic_tyvar_RDR }
- | 'unsafe' { unsafe_tyvar_RDR }
- | 'stdcall' { stdcall_tyvar_RDR }
- | 'ccall' { ccall_tyvar_RDR }
- -- NOTE: no 'forall'
+commas :: { Int }
+ : commas ',' { $1 + 1 }
+ | ',' { 2 }
-----------------------------------------------------------------------------