Datatype for: @BindGroup@, @Bind@, @Sig@, @Bind@.
\begin{code}
-{-# OPTIONS -w #-}
+{-# OPTIONS -fno-warn-incomplete-patterns #-}
-- 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
module HsBinds where
-#include "HsVersions.h"
-
import {-# SOURCE #-} HsExpr ( HsExpr, pprExpr, LHsExpr,
MatchGroup, pprFunBind,
GRHSs, pprPatBind )
import Util
import Var
import Bag
+import FastString
\end{code}
%************************************************************************
-- Reason 1: Special case for type inference: see TcBinds.tcMonoBinds
--
-- Reason 2: instance decls can only have FunBinds, which is convenient
--- If you change this, you'll need tochange e.g. rnMethodBinds
+-- If you change this, you'll need to change e.g. rnMethodBinds
-- But note that the form f :: a->a = ...
-- parses as a pattern binding, just like
pprValBindsForUser (unionManyBags (map snd sccs)) sigs
where
ppr_scc (rec_flag, binds) = pp_rec rec_flag <+> pprLHsBinds binds
- pp_rec Recursive = ptext SLIT("rec")
- pp_rec NonRecursive = ptext SLIT("nonrec")
+ pp_rec Recursive = ptext (sLit "rec")
+ pp_rec NonRecursive = ptext (sLit "nonrec")
-- *not* pprLHsBinds because we don't want braces; 'let' and
-- 'where' include a list of HsBindGroups and we don't want
ppr_monobind (AbsBinds { abs_tvs = tyvars, abs_dicts = dictvars,
abs_exports = exports, abs_binds = val_binds })
- = sep [ptext SLIT("AbsBinds"),
+ = sep [ptext (sLit "AbsBinds"),
brackets (interpp'SP tyvars),
brackets (interpp'SP dictvars),
brackets (sep (punctuate comma (map ppr_exp exports)))]
$$ pprLHsBinds val_binds )
where
ppr_exp (tvs, gbl, lcl, prags)
- = vcat [ppr gbl <+> ptext SLIT("<=") <+> ppr tvs <+> ppr lcl,
+ = vcat [ppr gbl <+> ptext (sLit "<=") <+> ppr tvs <+> ppr lcl,
nest 2 (vcat (map (pprPrag gbl) prags))]
\end{code}
| WpCompose HsWrapper HsWrapper -- (\a1..an. []) `WpCompose` (\x1..xn. [])
-- = (\a1..an \x1..xn. [])
- | WpCo Coercion -- A cast: [] `cast` co
- -- Guaranteedn not the identity coercion
+ | WpCast Coercion -- A cast: [] `cast` co
+ -- Guaranteed not the identity coercion
| WpApp Var -- [] d the 'd' is a type-class dictionary
| WpTyApp Type -- [] t the 't' is a type or corecion
-- (would be nicer to be core bindings)
instance Outputable HsWrapper where
- ppr co_fn = pprHsWrapper (ptext SLIT("<>")) co_fn
+ ppr co_fn = pprHsWrapper (ptext (sLit "<>")) co_fn
pprHsWrapper :: SDoc -> HsWrapper -> SDoc
pprHsWrapper it wrap =
let
help it WpHole = it
help it (WpCompose f1 f2) = help (help it f2) f1
- help it (WpCo co) = sep [it, nest 2 (ptext SLIT("`cast`") <+> pprParendType co)]
+ help it (WpCast co) = sep [it, nest 2 (ptext (sLit "`cast`") <+> pprParendType co)]
help it (WpApp id) = sep [it, nest 2 (ppr id)]
- help it (WpTyApp ty) = sep [it, ptext SLIT("@") <+> pprParendType ty]
- help it (WpLam id) = sep [ptext SLIT("\\") <> pprBndr LambdaBind id <> dot, it]
- help it (WpTyLam tv) = sep [ptext SLIT("/\\") <> pprBndr LambdaBind tv <> dot, it]
- help it (WpLet binds) = sep [ptext SLIT("let") <+> braces (ppr binds), it]
- help it WpInline = sep [ptext SLIT("_inline_me_"), it]
+ help it (WpTyApp ty) = sep [it, ptext (sLit "@") <+> pprParendType ty]
+ help it (WpLam id) = sep [ptext (sLit "\\") <> pprBndr LambdaBind id <> dot, it]
+ help it (WpTyLam tv) = sep [ptext (sLit "/\\") <> pprBndr LambdaBind tv <> dot, it]
+ help it (WpLet binds) = sep [ptext (sLit "let") <+> braces (ppr binds), it]
+ help it WpInline = sep [ptext (sLit "_inline_me_"), it]
in
-- in debug mode, print the wrapper
-- otherwise just print what's inside
isIdHsWrapper :: HsWrapper -> Bool
isIdHsWrapper WpHole = True
-isIdHsWrapper other = False
+isIdHsWrapper _ = False
\end{code}
PostTcType -- specialises the polymorphic function
InlineSpec -- Inlining spec for the specialised function
+isInlinePrag :: Prag -> Bool
isInlinePrag (InlinePrag _) = True
-isInlinePrag prag = False
+isInlinePrag _ = False
+isSpecPrag :: Prag -> Bool
isSpecPrag (SpecPrag {}) = True
-isSpecPrag prag = False
+isSpecPrag _ = False
\end{code}
\begin{code}
-okBindSig :: NameSet -> LSig Name -> Bool
-okBindSig ns sig = sigForThisGroup ns sig
+okBindSig :: Sig a -> Bool
+okBindSig _ = True
-okHsBootSig :: LSig Name -> Bool
-okHsBootSig (L _ (TypeSig _ _)) = True
-okHsBootSig (L _ (FixSig _)) = True
-okHsBootSig sig = False
+okHsBootSig :: Sig a -> Bool
+okHsBootSig (TypeSig _ _) = True
+okHsBootSig (FixSig _) = True
+okHsBootSig _ = False
-okClsDclSig :: LSig Name -> Bool
-okClsDclSig (L _ (SpecInstSig _)) = False
-okClsDclSig sig = True -- All others OK
+okClsDclSig :: Sig a -> Bool
+okClsDclSig (SpecInstSig _) = False
+okClsDclSig _ = True -- All others OK
-okInstDclSig :: NameSet -> LSig Name -> Bool
-okInstDclSig ns lsig@(L _ sig) = ok ns sig
- where
- ok ns (TypeSig _ _) = False
- ok ns (FixSig _) = False
- ok ns (SpecInstSig _) = True
- ok ns sig = sigForThisGroup ns lsig
+okInstDclSig :: Sig a -> Bool
+okInstDclSig (TypeSig _ _) = False
+okInstDclSig (FixSig _) = False
+okInstDclSig _ = True
sigForThisGroup :: NameSet -> LSig Name -> Bool
sigForThisGroup ns sig
sigNameNoLoc (SpecSig n _ _) = Just (unLoc n)
sigNameNoLoc (InlineSig n _) = Just (unLoc n)
sigNameNoLoc (FixSig (FixitySig n _)) = Just (unLoc n)
-sigNameNoLoc other = Nothing
+sigNameNoLoc _ = Nothing
isFixityLSig :: LSig name -> Bool
isFixityLSig (L _ (FixSig {})) = True
isVanillaLSig :: LSig name -> Bool
isVanillaLSig (L _(TypeSig {})) = True
-isVanillaLSig sig = False
+isVanillaLSig _ = False
isSpecLSig :: LSig name -> Bool
isSpecLSig (L _(SpecSig {})) = True
-isSpecLSig sig = False
+isSpecLSig _ = False
+isSpecInstLSig :: LSig name -> Bool
isSpecInstLSig (L _ (SpecInstSig {})) = True
-isSpecInstLSig sig = False
+isSpecInstLSig _ = False
isPragLSig :: LSig name -> Bool
-- Identifies pragmas
isPragLSig (L _ (SpecSig {})) = True
isPragLSig (L _ (InlineSig {})) = True
-isPragLSig other = False
+isPragLSig _ = False
isInlineLSig :: LSig name -> Bool
-- Identifies inline pragmas
isInlineLSig (L _ (InlineSig {})) = True
-isInlineLSig other = False
-
-hsSigDoc (TypeSig {}) = ptext SLIT("type signature")
-hsSigDoc (SpecSig {}) = ptext SLIT("SPECIALISE pragma")
-hsSigDoc (InlineSig _ spec) = ptext SLIT("INLINE pragma")
-hsSigDoc (SpecInstSig {}) = ptext SLIT("SPECIALISE instance pragma")
-hsSigDoc (FixSig {}) = ptext SLIT("fixity declaration")
+isInlineLSig _ = False
+
+hsSigDoc :: Sig name -> SDoc
+hsSigDoc (TypeSig {}) = ptext (sLit "type signature")
+hsSigDoc (SpecSig {}) = ptext (sLit "SPECIALISE pragma")
+hsSigDoc (InlineSig {}) = ptext (sLit "INLINE pragma")
+hsSigDoc (SpecInstSig {}) = ptext (sLit "SPECIALISE instance pragma")
+hsSigDoc (FixSig {}) = ptext (sLit "fixity declaration")
\end{code}
Signature equality is used when checking for duplicate signatures
\begin{code}
-eqHsSig :: LSig Name -> LSig Name -> Bool
+eqHsSig :: Eq a => LSig a -> LSig a -> Bool
eqHsSig (L _ (FixSig (FixitySig n1 _))) (L _ (FixSig (FixitySig n2 _))) = unLoc n1 == unLoc n2
eqHsSig (L _ (TypeSig n1 _)) (L _ (TypeSig n2 _)) = unLoc n1 == unLoc n2
-eqHsSig (L _ (InlineSig n1 s1)) (L _ (InlineSig n2 s2)) = unLoc n1 == unLoc n2
+eqHsSig (L _ (InlineSig n1 _)) (L _ (InlineSig n2 _)) = unLoc n1 == unLoc n2
-- For specialisations, we don't have equality over
-- HsType, so it's not convenient to spot duplicate
-- specialisations here. Check for this later, when we're in Type land
ppr_sig (FixSig fix_sig) = ppr fix_sig
ppr_sig (SpecSig var ty inl) = pragBrackets (pprSpec var ty inl)
ppr_sig (InlineSig var inl) = pragBrackets (ppr inl <+> ppr var)
-ppr_sig (SpecInstSig ty) = pragBrackets (ptext SLIT("SPECIALIZE instance") <+> ppr ty)
+ppr_sig (SpecInstSig ty) = pragBrackets (ptext (sLit "SPECIALIZE instance") <+> ppr ty)
instance Outputable name => Outputable (FixitySig name) where
ppr (FixitySig name fixity) = sep [ppr fixity, ppr name]
pragBrackets :: SDoc -> SDoc
-pragBrackets doc = ptext SLIT("{-#") <+> doc <+> ptext SLIT("#-}")
+pragBrackets doc = ptext (sLit "{-#") <+> doc <+> ptext (sLit "#-}")
pprVarSig :: (Outputable id, Outputable ty) => id -> ty -> SDoc
pprVarSig var ty = sep [ppr var <+> dcolon, nest 2 (ppr ty)]
pprSpec :: (Outputable id, Outputable ty) => id -> ty -> InlineSpec -> SDoc
-pprSpec var ty inl = sep [ptext SLIT("SPECIALIZE") <+> ppr inl <+> pprVarSig var ty]
+pprSpec var ty inl = sep [ptext (sLit "SPECIALIZE") <+> ppr inl <+> pprVarSig var ty]
pprPrag :: Outputable id => id -> LPrag -> SDoc
-pprPrag var (L _ (InlinePrag inl)) = ppr inl <+> ppr var
-pprPrag var (L _ (SpecPrag expr ty inl)) = pprSpec var ty inl
+pprPrag var (L _ (InlinePrag inl)) = ppr inl <+> ppr var
+pprPrag var (L _ (SpecPrag _expr ty inl)) = pprSpec var ty inl
\end{code}