-- friends:
import HsDecls ( HsGroup )
-import HsBinds ( HsBinds(..), nullBinds )
-import HsPat ( Pat(..), HsConDetails(..) )
+import HsPat ( LPat )
import HsLit ( HsLit(..), HsOverLit )
-import HsTypes ( HsType, PostTcType, SyntaxName, placeHolderType )
+import HsTypes ( LHsType, PostTcType, SyntaxName )
import HsImpExp ( isOperator, pprHsVar )
+import HsBinds ( HsBindGroup )
-- others:
import Type ( Type, pprParendType )
import Name ( Name )
import DataCon ( DataCon )
import BasicTypes ( IPName, Boxity, tupleParens, Fixity(..) )
-import SrcLoc ( SrcLoc, generatedSrcLoc )
+import SrcLoc ( Located(..), unLoc )
import Outputable
import FastString
\end{code}
%************************************************************************
%* *
- Some useful helpers for constructing expressions
-%* *
-%************************************************************************
-
-\begin{code}
-mkHsApps f xs = foldl HsApp (HsVar f) xs
-mkHsVarApps f xs = foldl HsApp (HsVar f) (map HsVar xs)
-
-mkHsIntLit n = HsLit (HsInt n)
-mkHsString s = HsString (mkFastString s)
-
-mkConPat con vars = ConPatIn con (PrefixCon (map VarPat vars))
-mkNullaryConPat con = ConPatIn con (PrefixCon [])
-
-mkSimpleHsAlt :: Pat id -> HsExpr id -> Match id
--- A simple lambda with a single pattern, no binds, no guards; pre-typechecking
-mkSimpleHsAlt pat expr
- = mkSimpleMatch [pat] expr placeHolderType generatedSrcLoc
-
-mkSimpleMatch :: [Pat id] -> HsExpr id -> Type -> SrcLoc -> Match id
-mkSimpleMatch pats rhs rhs_ty locn
- = Match pats Nothing (GRHSs (unguardedRHS rhs locn) EmptyBinds rhs_ty)
-
-unguardedRHS :: HsExpr id -> SrcLoc -> [GRHS id]
-unguardedRHS rhs loc = [GRHS [ResultStmt rhs loc] loc]
-
-glueBindsOnGRHSs :: HsBinds id -> GRHSs id -> GRHSs id
-glueBindsOnGRHSs EmptyBinds grhss = grhss
-glueBindsOnGRHSs binds1 (GRHSs grhss binds2 ty)
- = GRHSs grhss (binds1 `ThenBinds` binds2) ty
-\end{code}
-
-
-%************************************************************************
-%* *
\subsection{Expressions proper}
%* *
%************************************************************************
\begin{code}
+type LHsExpr id = Located (HsExpr id)
+
data HsExpr id
= HsVar id -- variable
| HsIPVar (IPName id) -- implicit parameter
| HsOverLit HsOverLit -- Overloaded literals; eliminated by type checker
| HsLit HsLit -- Simple (non-overloaded) literals
- | HsLam (Match id) -- lambda
- | HsApp (HsExpr id) -- application
- (HsExpr id)
+ | HsLam (LMatch id) -- lambda
+ | HsApp (LHsExpr id) -- application
+ (LHsExpr id)
-- Operator applications:
-- NB Bracketed ops such as (+) come out as Vars.
-- NB We need an expr for the operator in an OpApp/Section since
-- the typechecker may need to apply the operator to a few types.
- | OpApp (HsExpr id) -- left operand
- (HsExpr id) -- operator
+ | OpApp (LHsExpr id) -- left operand
+ (LHsExpr id) -- operator
Fixity -- Renamer adds fixity; bottom until then
- (HsExpr id) -- right operand
+ (LHsExpr id) -- right operand
-- We preserve prefix negation and parenthesis for the precedence parser.
-- They are eventually removed by the type checker.
- | NegApp (HsExpr id) -- negated expr
+ | NegApp (LHsExpr id) -- negated expr
SyntaxName -- Name of 'negate' (see RnEnv.lookupSyntaxName)
- | HsPar (HsExpr id) -- parenthesised expr
+ | HsPar (LHsExpr id) -- parenthesised expr
- | SectionL (HsExpr id) -- operand
- (HsExpr id) -- operator
- | SectionR (HsExpr id) -- operator
- (HsExpr id) -- operand
+ | SectionL (LHsExpr id) -- operand
+ (LHsExpr id) -- operator
+ | SectionR (LHsExpr id) -- operator
+ (LHsExpr id) -- operand
- | HsCase (HsExpr id)
- [Match id]
- SrcLoc
+ | HsCase (LHsExpr id)
+ [LMatch id]
- | HsIf (HsExpr id) -- predicate
- (HsExpr id) -- then part
- (HsExpr id) -- else part
- SrcLoc
+ | HsIf (LHsExpr id) -- predicate
+ (LHsExpr id) -- then part
+ (LHsExpr id) -- else part
- | HsLet (HsBinds id) -- let(rec)
- (HsExpr id)
+ | HsLet [HsBindGroup id] -- let(rec)
+ (LHsExpr id)
| HsDo (HsStmtContext Name) -- The parameterisation is unimportant
-- because in this context we never use
-- the PatGuard or ParStmt variant
- [Stmt id] -- "do":one or more stmts
+ [LStmt id] -- "do":one or more stmts
(ReboundNames id) -- Ids for [return,fail,>>=,>>]
PostTcType -- Type of the whole expression
- SrcLoc
| ExplicitList -- syntactic list
PostTcType -- Gives type of components of list
- [HsExpr id]
+ [LHsExpr id]
| ExplicitPArr -- syntactic parallel array: [:e1, ..., en:]
PostTcType -- type of elements of the parallel array
- [HsExpr id]
+ [LHsExpr id]
| ExplicitTuple -- tuple
- [HsExpr id]
+ [LHsExpr id]
-- NB: Unit is ExplicitTuple []
-- for tuples, we can get the types
-- direct from the components
-- Record construction
- | RecordCon id -- The constructor
+ | RecordCon (Located id) -- The constructor
(HsRecordBinds id)
| RecordConOut DataCon
- (HsExpr id) -- Data con Id applied to type args
+ (LHsExpr id) -- Data con Id applied to type args
(HsRecordBinds id)
-- Record update
- | RecordUpd (HsExpr id)
+ | RecordUpd (LHsExpr id)
(HsRecordBinds id)
- | RecordUpdOut (HsExpr id) -- TRANSLATION
+ | RecordUpdOut (LHsExpr id) -- TRANSLATION
Type -- Type of *input* record
Type -- Type of *result* record (may differ from
-- type of input record)
(HsRecordBinds id)
| ExprWithTySig -- signature binding
- (HsExpr id)
- (HsType id)
+ (LHsExpr id)
+ (LHsType id)
| ArithSeqIn -- arithmetic sequence
(ArithSeqInfo id)
| ArithSeqOut
- (HsExpr id) -- (typechecked, of course)
+ (LHsExpr id) -- (typechecked, of course)
(ArithSeqInfo id)
| PArrSeqIn -- arith. sequence for parallel array
(ArithSeqInfo id) -- [:e1..e2:] or [:e1, e2..e3:]
| PArrSeqOut
- (HsExpr id) -- (typechecked, of course)
+ (LHsExpr id) -- (typechecked, of course)
(ArithSeqInfo id)
| HsSCC FastString -- "set cost centre" (_scc_) annotation
- (HsExpr id) -- expr whose cost is to be measured
+ (LHsExpr id) -- expr whose cost is to be measured
| HsCoreAnn FastString -- hdaume: core annotation
- (HsExpr id)
+ (LHsExpr id)
-----------------------------------------------------------
-- MetaHaskell Extensions
- | HsBracket (HsBracket id) SrcLoc
+ | HsBracket (HsBracket id)
| HsBracketOut (HsBracket Name) -- Output of the type checker is the *original*
[PendingSplice] -- renamed expression, plus *typechecked* splices
-- to be pasted back in by the desugarer
- | HsSplice id (HsExpr id) SrcLoc -- $z or $(f 4)
+ | HsSplice id (LHsExpr id) -- $z or $(f 4)
-- The id is just a unique name to
-- identify this splice point
- | HsReify (HsReify id) -- reifyType t, reifyDecl i, reifyFixity
-
-----------------------------------------------------------
-- Arrow notation extension
- | HsProc (Pat id) -- arrow abstraction, proc
- (HsCmdTop id) -- body of the abstraction
+ | HsProc (LPat id) -- arrow abstraction, proc
+ (LHsCmdTop id) -- body of the abstraction
-- always has an empty stack
- SrcLoc
---------------------------------------
-- The following are commands, not expressions proper
| HsArrApp -- Arrow tail, or arrow application (f -< arg)
- (HsExpr id) -- arrow expression, f
- (HsExpr id) -- input expression, arg
+ (LHsExpr id) -- arrow expression, f
+ (LHsExpr id) -- input expression, arg
PostTcType -- type of the arrow expressions f,
-- of the form a t t', where arg :: t
HsArrAppType -- higher-order (-<<) or first-order (-<)
Bool -- True => right-to-left (f -< arg)
-- False => left-to-right (arg >- f)
- SrcLoc
| HsArrForm -- Command formation, (| e cmd1 .. cmdn |)
- (HsExpr id) -- the operator
+ (LHsExpr id) -- the operator
-- after type-checking, a type abstraction to be
-- applied to the type of the local environment tuple
(Maybe Fixity) -- fixity (filled in by the renamer), for forms that
-- were converted from OpApp's by the renamer
- [HsCmdTop id] -- argument commands
- SrcLoc
-
+ [LHsCmdTop id] -- argument commands
\end{code}
\begin{code}
| EWildPat -- wildcard
- | EAsPat id -- as pattern
- (HsExpr id)
+ | EAsPat (Located id) -- as pattern
+ (LHsExpr id)
- | ELazyPat (HsExpr id) -- ~ pattern
+ | ELazyPat (LHsExpr id) -- ~ pattern
- | HsType (HsType id) -- Explicit type argument; e.g f {| Int |} x y
+ | HsType (LHsType id) -- Explicit type argument; e.g f {| Int |} x y
\end{code}
Everything from here on appears only in typechecker output.
\begin{code}
| TyLam -- TRANSLATION
[TyVar]
- (HsExpr id)
+ (LHsExpr id)
| TyApp -- TRANSLATION
- (HsExpr id) -- generated by Spec
+ (LHsExpr id) -- generated by Spec
[Type]
-- DictLam and DictApp are "inverses"
| DictLam
[id]
- (HsExpr id)
+ (LHsExpr id)
| DictApp
- (HsExpr id)
+ (LHsExpr id)
[id]
-type PendingSplice = (Name, HsExpr Id) -- Typechecked splices, waiting to be
+type PendingSplice = (Name, LHsExpr Id) -- Typechecked splices, waiting to be
-- pasted back in by the desugarer
\end{code}
This gets filled in by the renamer.
\begin{code}
-type ReboundNames id = [(Name, HsExpr id)]
+type ReboundNames id = [(Name, LHsExpr id)]
-- * Before the renamer, this list is empty
--
-- * After the renamer, it takes the form [(std_name, HsVar actual_name)]
pprExpr :: OutputableBndr id => HsExpr id -> SDoc
pprExpr e = pprDeeper (ppr_expr e)
-pprBinds b = pprDeeper (ppr b)
+
+pprBinds :: OutputableBndr id => [HsBindGroup id] -> SDoc
+pprBinds b = pprDeeper (vcat (map ppr b))
+
+ppr_lexpr :: OutputableBndr id => LHsExpr id -> SDoc
+ppr_lexpr e = ppr_expr (unLoc e)
ppr_expr (HsVar v) = pprHsVar v
ppr_expr (HsIPVar v) = ppr v
ppr_expr (HsLit lit) = ppr lit
ppr_expr (HsOverLit lit) = ppr lit
-ppr_expr (HsLam match) = pprMatch LambdaExpr match
+ppr_expr (HsLam match) = pprMatch LambdaExpr (unLoc match)
-ppr_expr expr@(HsApp e1 e2)
- = let (fun, args) = collect_args expr [] in
- (ppr_expr fun) <+> (sep (map pprParendExpr args))
+ppr_expr (HsApp e1 e2)
+ = let (fun, args) = collect_args e1 [e2] in
+ (ppr_lexpr fun) <+> (sep (map pprParendExpr args))
where
- collect_args (HsApp fun arg) args = collect_args fun (arg:args)
- collect_args fun args = (fun, args)
+ collect_args (L _ (HsApp fun arg)) args = collect_args fun (arg:args)
+ collect_args fun args = (fun, args)
ppr_expr (OpApp e1 op fixity e2)
- = case op of
+ = case unLoc op of
HsVar v -> pp_infixly v
_ -> pp_prefixly
where
pp_e2 = pprParendExpr e2
pp_prefixly
- = hang (ppr_expr op) 4 (sep [pp_e1, pp_e2])
+ = hang (ppr op) 4 (sep [pp_e1, pp_e2])
pp_infixly v
= sep [pp_e1, hsep [pprInfix v, pp_e2]]
ppr_expr (NegApp e _) = char '-' <+> pprParendExpr e
-ppr_expr (HsPar e) = parens (ppr_expr e)
+ppr_expr (HsPar e) = parens (ppr_lexpr e)
ppr_expr (SectionL expr op)
- = case op of
+ = case unLoc op of
HsVar v -> pp_infixly v
_ -> pp_prefixly
where
pp_infixly v = parens (sep [pp_expr, ppr v])
ppr_expr (SectionR op expr)
- = case op of
+ = case unLoc op of
HsVar v -> pp_infixly v
_ -> pp_prefixly
where
pp_infixly v
= parens (sep [ppr v, pp_expr])
-ppr_expr (HsCase expr matches _)
- = sep [ sep [ptext SLIT("case"), nest 4 (pprExpr expr), ptext SLIT("of")],
+ppr_expr (HsCase expr matches)
+ = sep [ sep [ptext SLIT("case"), nest 4 (ppr expr), ptext SLIT("of")],
nest 2 (pprMatches CaseAlt matches) ]
-ppr_expr (HsIf e1 e2 e3 _)
- = sep [hsep [ptext SLIT("if"), nest 2 (pprExpr e1), ptext SLIT("then")],
- nest 4 (pprExpr e2),
+ppr_expr (HsIf e1 e2 e3)
+ = sep [hsep [ptext SLIT("if"), nest 2 (ppr e1), ptext SLIT("then")],
+ nest 4 (ppr e2),
ptext SLIT("else"),
- nest 4 (pprExpr e3)]
+ nest 4 (ppr e3)]
-- special case: let ... in let ...
-ppr_expr (HsLet binds expr@(HsLet _ _))
+ppr_expr (HsLet binds expr@(L _ (HsLet _ _)))
= sep [hang (ptext SLIT("let")) 2 (hsep [pprBinds binds, ptext SLIT("in")]),
- ppr_expr expr]
+ ppr_lexpr expr]
ppr_expr (HsLet binds expr)
= sep [hang (ptext SLIT("let")) 2 (pprBinds binds),
hang (ptext SLIT("in")) 2 (ppr expr)]
-ppr_expr (HsDo do_or_list_comp stmts _ _ _) = pprDo do_or_list_comp stmts
+ppr_expr (HsDo do_or_list_comp stmts _ _) = pprDo do_or_list_comp stmts
ppr_expr (ExplicitList _ exprs)
- = brackets (fsep (punctuate comma (map ppr_expr exprs)))
+ = brackets (fsep (punctuate comma (map ppr_lexpr exprs)))
ppr_expr (ExplicitPArr _ exprs)
- = pa_brackets (fsep (punctuate comma (map ppr_expr exprs)))
+ = pa_brackets (fsep (punctuate comma (map ppr_lexpr exprs)))
ppr_expr (ExplicitTuple exprs boxity)
- = tupleParens boxity (sep (punctuate comma (map ppr_expr exprs)))
+ = tupleParens boxity (sep (punctuate comma (map ppr_lexpr exprs)))
ppr_expr (RecordCon con_id rbinds)
= pp_rbinds (ppr con_id) rbinds
= pp_rbinds (pprParendExpr aexp) rbinds
ppr_expr (ExprWithTySig expr sig)
- = hang (nest 2 (ppr_expr expr) <+> dcolon)
+ = hang (nest 2 (ppr_lexpr expr) <+> dcolon)
4 (ppr sig)
ppr_expr (ArithSeqIn info)
= hang (hsep [ptext SLIT("/\\"),
hsep (map (pprBndr LambdaBind) tyvars),
ptext SLIT("->")])
- 4 (ppr_expr expr)
+ 4 (ppr_lexpr expr)
ppr_expr (TyApp expr [ty])
- = hang (ppr_expr expr) 4 (pprParendType ty)
+ = hang (ppr_lexpr expr) 4 (pprParendType ty)
ppr_expr (TyApp expr tys)
- = hang (ppr_expr expr)
+ = hang (ppr_lexpr expr)
4 (brackets (interpp'SP tys))
ppr_expr (DictLam dictvars expr)
= hang (hsep [ptext SLIT("\\{-dict-}"),
hsep (map (pprBndr LambdaBind) dictvars),
ptext SLIT("->")])
- 4 (ppr_expr expr)
+ 4 (ppr_lexpr expr)
ppr_expr (DictApp expr [dname])
- = hang (ppr_expr expr) 4 (ppr dname)
+ = hang (ppr_lexpr expr) 4 (ppr dname)
ppr_expr (DictApp expr dnames)
- = hang (ppr_expr expr)
+ = hang (ppr_lexpr expr)
4 (brackets (interpp'SP dnames))
ppr_expr (HsType id) = ppr id
-ppr_expr (HsSplice n e _) = char '$' <> brackets (ppr n) <> pprParendExpr e
-ppr_expr (HsBracket b _) = pprHsBracket b
+ppr_expr (HsSplice n e) = char '$' <> brackets (ppr n) <> pprParendExpr e
+ppr_expr (HsBracket b) = ppr b
ppr_expr (HsBracketOut e ps) = ppr e $$ ptext SLIT("where") <+> ppr ps
-ppr_expr (HsReify r) = ppr r
-
-ppr_expr (HsProc pat (HsCmdTop cmd _ _ _) _)
- = hsep [ptext SLIT("proc"), ppr pat, ptext SLIT("->"), pprExpr cmd]
-
-ppr_expr (HsArrApp arrow arg _ HsFirstOrderApp True _)
- = hsep [ppr_expr arrow, ptext SLIT("-<"), ppr_expr arg]
-ppr_expr (HsArrApp arrow arg _ HsFirstOrderApp False _)
- = hsep [ppr_expr arg, ptext SLIT(">-"), ppr_expr arrow]
-ppr_expr (HsArrApp arrow arg _ HsHigherOrderApp True _)
- = hsep [ppr_expr arrow, ptext SLIT("-<<"), ppr_expr arg]
-ppr_expr (HsArrApp arrow arg _ HsHigherOrderApp False _)
- = hsep [ppr_expr arg, ptext SLIT(">>-"), ppr_expr arrow]
-
-ppr_expr (HsArrForm (HsVar v) (Just _) [arg1, arg2] _)
- = sep [pprCmdArg arg1, hsep [pprInfix v, pprCmdArg arg2]]
-ppr_expr (HsArrForm op _ args _)
- = hang (ptext SLIT("(|") <> ppr_expr op)
- 4 (sep (map pprCmdArg args) <> ptext SLIT("|)"))
+
+ppr_expr (HsProc pat (L _ (HsCmdTop cmd _ _ _)))
+ = hsep [ptext SLIT("proc"), ppr pat, ptext SLIT("->"), ppr cmd]
+
+ppr_expr (HsArrApp arrow arg _ HsFirstOrderApp True)
+ = hsep [ppr_lexpr arrow, ptext SLIT("-<"), ppr_lexpr arg]
+ppr_expr (HsArrApp arrow arg _ HsFirstOrderApp False)
+ = hsep [ppr_lexpr arg, ptext SLIT(">-"), ppr_lexpr arrow]
+ppr_expr (HsArrApp arrow arg _ HsHigherOrderApp True)
+ = hsep [ppr_lexpr arrow, ptext SLIT("-<<"), ppr_lexpr arg]
+ppr_expr (HsArrApp arrow arg _ HsHigherOrderApp False)
+ = hsep [ppr_lexpr arg, ptext SLIT(">>-"), ppr_lexpr arrow]
+
+ppr_expr (HsArrForm (L _ (HsVar v)) (Just _) [arg1, arg2])
+ = sep [pprCmdArg (unLoc arg1), hsep [pprInfix v, pprCmdArg (unLoc arg2)]]
+ppr_expr (HsArrForm op _ args)
+ = hang (ptext SLIT("(|") <> ppr_lexpr op)
+ 4 (sep (map (pprCmdArg.unLoc) args) <> ptext SLIT("|)"))
pprCmdArg :: OutputableBndr id => HsCmdTop id -> SDoc
-pprCmdArg (HsCmdTop cmd@(HsArrForm _ Nothing [] _) _ _ _) = ppr_expr cmd
-pprCmdArg (HsCmdTop cmd _ _ _) = parens (ppr_expr cmd)
+pprCmdArg (HsCmdTop cmd@(L _ (HsArrForm _ Nothing [])) _ _ _)
+ = ppr_lexpr cmd
+pprCmdArg (HsCmdTop cmd _ _ _)
+ = parens (ppr_lexpr cmd)
-- Put a var in backquotes if it's not an operator already
pprInfix :: Outputable name => name -> SDoc
Parenthesize unless very simple:
\begin{code}
-pprParendExpr :: OutputableBndr id => HsExpr id -> SDoc
-
+pprParendExpr :: OutputableBndr id => LHsExpr id -> SDoc
pprParendExpr expr
= let
- pp_as_was = ppr_expr expr
+ pp_as_was = ppr_lexpr expr
-- Using ppr_expr here avoids the call to 'deeper'
-- Not sure if that's always right.
in
- case expr of
+ case unLoc expr of
HsLit l -> ppr l
HsOverLit l -> ppr l
\begin{code}
type HsCmd id = HsExpr id
+type LHsCmd id = LHsExpr id
+
data HsArrAppType = HsHigherOrderApp | HsFirstOrderApp
\end{code}
argument of a command-forming operator.
\begin{code}
+type LHsCmdTop id = Located (HsCmdTop id)
+
data HsCmdTop id
- = HsCmdTop (HsCmd id)
+ = HsCmdTop (LHsCmd id)
[PostTcType] -- types of inputs on the command's stack
PostTcType -- return type of the command
(ReboundNames id)
%************************************************************************
\begin{code}
-type HsRecordBinds id = [(id, HsExpr id)]
+type HsRecordBinds id = [(Located id, LHsExpr id)]
recBindFields :: HsRecordBinds id -> [id]
-recBindFields rbinds = [field | (field,_) <- rbinds]
+recBindFields rbinds = [unLoc field | (field,_) <- rbinds]
pp_rbinds :: OutputableBndr id => SDoc -> HsRecordBinds id -> SDoc
-
pp_rbinds thing rbinds
= hang thing
4 (braces (sep (punctuate comma (map (pp_rbind) rbinds))))
where
- pp_rbind (v, e) = hsep [pprBndr LetBind v, char '=', ppr e]
+ pp_rbind (v, e) = hsep [pprBndr LetBind (unLoc v), char '=', ppr e]
\end{code}
patterns in each equation.
\begin{code}
+type LMatch id = Located (Match id)
+
data Match id
= Match
- [Pat id] -- The patterns
- (Maybe (HsType id)) -- A type signature for the result of the match
+ [LPat id] -- The patterns
+ (Maybe (LHsType id)) -- A type signature for the result of the match
-- Nothing after typechecking
(GRHSs id)
-- GRHSs are used both for pattern bindings and for Matches
data GRHSs id
- = GRHSs [GRHS id] -- Guarded RHSs
- (HsBinds id) -- The where clause
+ = GRHSs [LGRHS id] -- Guarded RHSs
+ [HsBindGroup id] -- The where clause
PostTcType -- Type of RHS (after type checking)
-data GRHS id
- = GRHS [Stmt id] -- The RHS is the final ResultStmt
- SrcLoc
-\end{code}
-
-@getMatchLoc@ takes a @Match@ and returns the
-source-location gotten from the GRHS inside.
-THis is something of a nuisance, but no more.
+type LGRHS id = Located (GRHS id)
-\begin{code}
-getMatchLoc :: Match id -> SrcLoc
-getMatchLoc (Match _ _ (GRHSs (GRHS _ loc : _) _ _)) = loc
+data GRHS id
+ = GRHS [LStmt id] -- The RHS is the final ResultStmt
\end{code}
We know the list must have at least one @Match@ in it.
\begin{code}
-pprMatches :: (OutputableBndr id) => HsMatchContext id -> [Match id] -> SDoc
-pprMatches ctxt matches = vcat (map (pprMatch ctxt) matches)
+pprMatches :: (OutputableBndr id) => HsMatchContext id -> [LMatch id] -> SDoc
+pprMatches ctxt matches = vcat (map (pprMatch ctxt) (map unLoc matches))
-- Exported to HsBinds, which can't see the defn of HsMatchContext
-pprFunBind :: (OutputableBndr id) => id -> [Match id] -> SDoc
+pprFunBind :: (OutputableBndr id) => id -> [LMatch id] -> SDoc
pprFunBind fun matches = pprMatches (FunRhs fun) matches
-- Exported to HsBinds, which can't see the defn of HsMatchContext
pprPatBind :: (OutputableBndr id)
- => Pat id -> GRHSs id -> SDoc
+ => LPat id -> GRHSs id -> SDoc
pprPatBind pat grhss = sep [ppr pat, nest 4 (pprGRHSs PatBindRhs grhss)]
pprGRHSs :: OutputableBndr id => HsMatchContext id -> GRHSs id -> SDoc
pprGRHSs ctxt (GRHSs grhss binds ty)
- = vcat (map (pprGRHS ctxt) grhss)
+ = vcat (map (pprGRHS ctxt . unLoc) grhss)
$$
- (if nullBinds binds then empty
- else text "where" $$ nest 4 (pprDeeper (ppr binds)))
-
+ (if null binds then empty
+ else text "where" $$ nest 4 (pprBinds binds))
pprGRHS :: OutputableBndr id => HsMatchContext id -> GRHS id -> SDoc
-pprGRHS ctxt (GRHS [ResultStmt expr _] locn)
+pprGRHS ctxt (GRHS [L _ (ResultStmt expr)])
= pp_rhs ctxt expr
-pprGRHS ctxt (GRHS guarded locn)
+pprGRHS ctxt (GRHS guarded)
= sep [char '|' <+> interpp'SP guards, pp_rhs ctxt expr]
where
- ResultStmt expr _ = last guarded -- Last stmt should be a ResultStmt for guards
- guards = init guarded
+ ResultStmt expr = unLoc (last guarded)
+ -- Last stmt should be a ResultStmt for guards
+ guards = init guarded
pp_rhs ctxt rhs = matchSeparator ctxt <+> pprDeeper (ppr rhs)
\end{code}
-
-
%************************************************************************
%* *
\subsection{Do stmts and list comprehensions}
%************************************************************************
\begin{code}
+type LStmt id = Located (Stmt id)
+
data Stmt id
- = BindStmt (Pat id) (HsExpr id) SrcLoc
- | LetStmt (HsBinds id)
- | ResultStmt (HsExpr id) SrcLoc -- See notes that follow
- | ExprStmt (HsExpr id) PostTcType SrcLoc -- See notes that follow
+ = BindStmt (LPat id) (LHsExpr id)
+ | LetStmt [HsBindGroup id]
+ | ResultStmt (LHsExpr id) -- See notes that follow
+ | ExprStmt (LHsExpr id) PostTcType -- See notes that follow
-- The type is the *element type* of the expression
-- ParStmts only occur in a list comprehension
- | ParStmt [([Stmt id], [id])] -- After remaing, the ids are the binders
+ | ParStmt [([LStmt id], [id])] -- After remaing, the ids are the binders
-- bound by the stmts and used subsequently
-- Recursive statement
- | RecStmt [Stmt id]
+ | RecStmt [LStmt id]
--- The next two fields are only valid after renaming
[id] -- The ids are a subset of the variables bound by the stmts
-- that are used in stmts that follow the RecStmt
-- From a type-checking point of view, these ones have to be monomorphic
--- This field is only valid after typechecking
- [HsExpr id] -- These expressions correspond
+ [LHsExpr id] -- These expressions correspond
-- 1-to-1 with the "recursive" [id], and are the expresions that
-- should be returned by the recursion. They may not quite be the
-- Ids themselves, because the Id may be *polymorphic*, but
Array comprehensions are handled like list comprehensions -=chak
\begin{code}
-consLetStmt :: HsBinds id -> [Stmt id] -> [Stmt id]
-consLetStmt EmptyBinds stmts = stmts
-consLetStmt binds stmts = LetStmt binds : stmts
-\end{code}
-
-\begin{code}
instance OutputableBndr id => Outputable (Stmt id) where
ppr stmt = pprStmt stmt
-pprStmt (BindStmt pat expr _) = hsep [ppr pat, ptext SLIT("<-"), ppr expr]
+pprStmt (BindStmt pat expr) = hsep [ppr pat, ptext SLIT("<-"), ppr expr]
pprStmt (LetStmt binds) = hsep [ptext SLIT("let"), pprBinds binds]
-pprStmt (ExprStmt expr _ _) = ppr expr
-pprStmt (ResultStmt expr _) = ppr expr
+pprStmt (ExprStmt expr _) = ppr expr
+pprStmt (ResultStmt expr) = ppr expr
pprStmt (ParStmt stmtss) = hsep (map (\stmts -> ptext SLIT("| ") <> ppr stmts) stmtss)
pprStmt (RecStmt segment _ _ _) = ptext SLIT("rec") <+> braces (vcat (map ppr segment))
-pprDo :: OutputableBndr id => HsStmtContext any -> [Stmt id] -> SDoc
+pprDo :: OutputableBndr id => HsStmtContext any -> [LStmt id] -> SDoc
pprDo DoExpr stmts = hang (ptext SLIT("do")) 2 (vcat (map ppr stmts))
pprDo MDoExpr stmts = hang (ptext SLIT("mdo")) 3 (vcat (map ppr stmts))
pprDo ListComp stmts = pprComp brackets stmts
pprDo PArrComp stmts = pprComp pa_brackets stmts
-pprComp :: OutputableBndr id => (SDoc -> SDoc) -> [Stmt id] -> SDoc
-pprComp brack stmts = brack $
- hang (pprExpr expr <+> char '|')
- 4 (interpp'SP quals)
- where
- ResultStmt expr _ = last stmts -- Last stmt should
- quals = init stmts -- be an ResultStmt
+pprComp :: OutputableBndr id => (SDoc -> SDoc) -> [LStmt id] -> SDoc
+pprComp brack stmts
+ = brack $
+ hang (ppr expr <+> char '|')
+ 4 (interpp'SP quals)
+ where
+ ResultStmt expr = unLoc (last stmts) -- Last stmt should
+ quals = init stmts -- be an ResultStmt
\end{code}
%************************************************************************
%************************************************************************
\begin{code}
-data HsBracket id = ExpBr (HsExpr id) -- [| expr |]
- | PatBr (Pat id) -- [p| pat |]
+data HsBracket id = ExpBr (LHsExpr id) -- [| expr |]
+ | PatBr (LPat id) -- [p| pat |]
| DecBr (HsGroup id) -- [d| decls |]
- | TypBr (HsType id) -- [t| type |]
+ | TypBr (LHsType id) -- [t| type |]
| VarBr id -- 'x, ''T
instance OutputableBndr id => Outputable (HsBracket id) where
thBrackets pp_kind pp_body = char '[' <> pp_kind <> char '|' <+>
pp_body <+> ptext SLIT("|]")
-
-data HsReify id = Reify ReifyFlavour id -- Pre typechecking
- | ReifyOut ReifyFlavour Name -- Post typechecking
- -- The Name could be the name of
- -- an Id, TyCon, or Class
-
-data ReifyFlavour = ReifyDecl | ReifyType | ReifyFixity
-
-instance Outputable id => Outputable (HsReify id) where
- ppr (Reify flavour id) = ppr flavour <+> ppr id
- ppr (ReifyOut flavour thing) = ppr flavour <+> ppr thing
-
-instance Outputable ReifyFlavour where
- ppr ReifyDecl = ptext SLIT("reifyDecl")
- ppr ReifyType = ptext SLIT("reifyType")
- ppr ReifyFixity = ptext SLIT("reifyFixity")
\end{code}
%************************************************************************
\begin{code}
data ArithSeqInfo id
- = From (HsExpr id)
- | FromThen (HsExpr id)
- (HsExpr id)
- | FromTo (HsExpr id)
- (HsExpr id)
- | FromThenTo (HsExpr id)
- (HsExpr id)
- (HsExpr id)
+ = From (LHsExpr id)
+ | FromThen (LHsExpr id)
+ (LHsExpr id)
+ | FromTo (LHsExpr id)
+ (LHsExpr id)
+ | FromThenTo (LHsExpr id)
+ (LHsExpr id)
+ (LHsExpr id)
\end{code}
\begin{code}