-- The above warning supression flag is a temporary kludge.
-- While working on this module you are encouraged to remove it and fix
-- any warnings in the module. See
--- http://hackage.haskell.org/trac/ghc/wiki/CodingStyle#Warnings
+-- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#Warnings
-- for details
module HsExpr where
data HsExpr id
= HsVar id -- variable
| HsIPVar (IPName id) -- implicit parameter
- | HsOverLit (HsOverLit id) -- Overloaded literals
+ | HsOverLit (HsOverLit id) -- Overloaded literals
+
| HsLit HsLit -- Simple (non-overloaded) literals
| HsLam (MatchGroup id) -- Currently always a single match
| EAsPat (Located id) -- as pattern
(LHsExpr id)
+ | EViewPat (LHsExpr id) -- view pattern
+ (LHsExpr id)
+
| ELazyPat (LHsExpr id) -- ~ pattern
| HsType (LHsType id) -- Explicit type argument; e.g f {| Int |} x y
isQuietHsExpr (OpApp _ _ _ _) = True
isQuietHsExpr _ = False
-pprBinds :: OutputableBndr id => HsLocalBinds id -> SDoc
+pprBinds :: (OutputableBndr idL, OutputableBndr idR) => HsLocalBindsLR idL idR -> SDoc
pprBinds b = pprDeeper (ppr b)
-----------------------
ppr_lexpr :: OutputableBndr id => LHsExpr id -> SDoc
ppr_lexpr e = ppr_expr (unLoc e)
+ppr_expr :: OutputableBndr id => HsExpr id -> SDoc
ppr_expr (HsVar v) = pprHsVar v
ppr_expr (HsIPVar v) = ppr v
ppr_expr (HsLit lit) = ppr lit
pp_prefixly = hang (hsep [text " \\ x_ ->", ppr op])
4 (hsep [pp_expr, ptext SLIT("x_ )")])
- pp_infixly v = parens (sep [pp_expr, pprInfix v])
+ pp_infixly v = (sep [pp_expr, pprInfix v])
ppr_expr (SectionR op expr)
= case unLoc op of
pp_prefixly = hang (hsep [text "( \\ x_ ->", ppr op, ptext SLIT("x_")])
4 ((<>) pp_expr rparen)
pp_infixly v
- = parens (sep [pprInfix v, pp_expr])
+ = (sep [pprInfix v, pp_expr])
-ppr_expr (HsLam matches)
- = pprMatches LambdaExpr matches
+ppr_expr (HsLam matches :: HsExpr id)
+ = pprMatches (LambdaExpr :: HsMatchContext id) matches
-ppr_expr (HsCase expr matches)
+ppr_expr (HsCase expr matches :: HsExpr id)
= sep [ sep [ptext SLIT("case"), nest 4 (ppr expr), ptext SLIT("of")],
- nest 2 (pprMatches CaseAlt matches) ]
+ nest 2 (pprMatches (CaseAlt :: HsMatchContext id) matches) ]
ppr_expr (HsIf e1 e2 e3)
= sep [hsep [ptext SLIT("if"), nest 2 (ppr e1), ptext SLIT("then")],
We know the list must have at least one @Match@ in it.
\begin{code}
-pprMatches :: (OutputableBndr id) => HsMatchContext id -> MatchGroup id -> SDoc
+pprMatches :: (OutputableBndr idL, OutputableBndr idR) => HsMatchContext idL -> MatchGroup idR -> SDoc
pprMatches ctxt (MatchGroup matches ty) = vcat (map (pprMatch ctxt) (map unLoc matches))
-- Don't print the type; it's only
-- a place-holder before typechecking
-- Exported to HsBinds, which can't see the defn of HsMatchContext
-pprFunBind :: (OutputableBndr id) => id -> Bool -> MatchGroup id -> SDoc
+pprFunBind :: (OutputableBndr idL, OutputableBndr idR) => idL -> Bool -> MatchGroup idR -> SDoc
pprFunBind fun inf matches = pprMatches (FunRhs fun inf) matches
-- Exported to HsBinds, which can't see the defn of HsMatchContext
pprPatBind :: (OutputableBndr bndr, OutputableBndr id)
=> LPat bndr -> GRHSs id -> SDoc
-pprPatBind pat grhss = sep [ppr pat, nest 4 (pprGRHSs PatBindRhs grhss)]
+pprPatBind pat (grhss :: GRHSs id) = sep [ppr pat, nest 4 (pprGRHSs (PatBindRhs :: HsMatchContext id) grhss)]
-pprMatch :: OutputableBndr id => HsMatchContext id -> Match id -> SDoc
+pprMatch :: (OutputableBndr idL, OutputableBndr idR) => HsMatchContext idL -> Match idR -> SDoc
pprMatch ctxt (Match pats maybe_ty grhss)
= herald <+> sep [sep (map ppr other_pats),
ppr_maybe_ty,
Nothing -> empty
-pprGRHSs :: OutputableBndr id => HsMatchContext id -> GRHSs id -> SDoc
+pprGRHSs :: (OutputableBndr idL, OutputableBndr idR) => HsMatchContext idL -> GRHSs idR -> SDoc
pprGRHSs ctxt (GRHSs grhss binds)
= vcat (map (pprGRHS ctxt . unLoc) grhss)
$$ if isEmptyLocalBinds binds then empty
else text "where" $$ nest 4 (pprBinds binds)
-pprGRHS :: OutputableBndr id => HsMatchContext id -> GRHS id -> SDoc
+pprGRHS :: (OutputableBndr idL, OutputableBndr idR) => HsMatchContext idL -> GRHS idR -> SDoc
pprGRHS ctxt (GRHS [] expr)
= pp_rhs ctxt expr
%************************************************************************
\begin{code}
-type LStmt id = Located (Stmt id)
+type LStmt id = Located (StmtLR id id)
+type LStmtLR idL idR = Located (StmtLR idL idR)
+
+type Stmt id = StmtLR id id
-- The SyntaxExprs in here are used *only* for do-notation, which
-- has rebindable syntax. Otherwise they are unused.
-data Stmt id
- = BindStmt (LPat id)
- (LHsExpr id)
- (SyntaxExpr id) -- The (>>=) operator
- (SyntaxExpr id) -- The fail operator
+data StmtLR idL idR
+ = BindStmt (LPat idL)
+ (LHsExpr idR)
+ (SyntaxExpr idR) -- The (>>=) operator
+ (SyntaxExpr idR) -- The fail operator
-- The fail operator is noSyntaxExpr
-- if the pattern match can't fail
- | ExprStmt (LHsExpr id)
- (SyntaxExpr id) -- The (>>) operator
+ | ExprStmt (LHsExpr idR)
+ (SyntaxExpr idR) -- The (>>) operator
PostTcType -- Element type of the RHS (used for arrows)
- | LetStmt (HsLocalBinds id)
+ | LetStmt (HsLocalBindsLR idL idR)
-- ParStmts only occur in a list comprehension
- | ParStmt [([LStmt id], [id])] -- After renaming, the ids are the binders
- -- bound by the stmts and used subsequently
+ | ParStmt [([LStmt idL], [idR])] -- After renaming, the ids are the binders
+ -- bound by the stmts and used subsequently
-- Recursive statement (see Note [RecStmt] below)
- | RecStmt [LStmt id]
+ | RecStmt [LStmtLR idL idR]
--- The next two fields are only valid after renaming
- [id] -- The ids are a subset of the variables bound by the stmts
+ [idR] -- The ids are a subset of the variables bound by the stmts
-- that are used in stmts that follow the RecStmt
- [id] -- Ditto, but these variables are the "recursive" ones, that
+ [idR] -- Ditto, but these variables are the "recursive" ones, that
-- are used before they are bound in the stmts of the RecStmt
-- From a type-checking point of view, these ones have to be monomorphic
-- should be returned by the recursion. They may not quite be the
-- Ids themselves, because the Id may be *polymorphic*, but
-- the returned thing has to be *monomorphic*.
- (DictBinds id) -- Method bindings of Ids bound by the RecStmt,
+ (DictBinds idR) -- Method bindings of Ids bound by the RecStmt,
-- and used afterwards
\end{code}
\begin{code}
-instance OutputableBndr id => Outputable (Stmt id) where
+instance (OutputableBndr idL, OutputableBndr idR) => Outputable (StmtLR idL idR) where
ppr stmt = pprStmt stmt
+pprStmt :: (OutputableBndr idL, OutputableBndr idR) => (StmtLR idL idR) -> SDoc
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
ppr = pprSplice
pprSplice :: OutputableBndr id => HsSplice id -> SDoc
-pprSplice (HsSplice n e) = char '$' <> brackets (ppr n) <> pprParendExpr e
+pprSplice (HsSplice n e) = char '$' <> ifPprDebug (brackets (ppr n)) <> pprParendExpr e
data HsBracket id = ExpBr (LHsExpr id) -- [| expr |]