%
-% (c) The GRASP/AQUA Project, Glasgow University, 1992-1996
+% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
\section[RnExpr]{Renaming of expressions}
Basically dependency analysis.
-Handles @Match@, @GRHSsAndBinds@, @HsExpr@, and @Qual@ datatypes. In
+Handles @Match@, @GRHSs@, @HsExpr@, and @Qualifier@ datatypes. In
general, all of these functions return a renamed thing, and a set of
free variables.
\begin{code}
-#include "HsVersions.h"
-
module RnExpr (
- rnMatch, rnGRHSsAndBinds, rnPat
+ rnMatch, rnGRHSs, rnPat, rnExpr, rnExprs, rnStmt,
+ checkPrecMatch
) where
-import Ubiq
-import RnLoop -- break the RnPass4/RnExpr4/RnBinds4 loops
+#include "HsVersions.h"
+
+import {-# SOURCE #-} RnBinds ( rnBinds )
+import {-# SOURCE #-} RnSource ( rnHsTypeFVs )
import HsSyn
import RdrHsSyn
import RnHsSyn
import RnMonad
-
-import ErrUtils ( addErrLoc )
-import Name ( isLocallyDefinedName, Name, RdrName )
-import Outputable ( pprOp )
-import Pretty
-import UniqFM ( lookupUFM )
-import UniqSet ( emptyUniqSet, unitUniqSet,
- unionUniqSets, unionManyUniqSets,
- UniqSet(..) )
-import Util ( Ord3(..), panic )
+import RnEnv
+import RnHiFiles ( lookupFixityRn )
+import CmdLineOpts ( DynFlag(..), opt_IgnoreAsserts )
+import Literal ( inIntRange, inCharRange )
+import BasicTypes ( Fixity(..), FixityDirection(..), defaultFixity, negateFixity )
+import PrelNames ( hasKey, assertIdKey, minusName, negateName, fromIntegerName,
+ eqClass_RDR, foldr_RDR, build_RDR, eqString_RDR,
+ cCallableClass_RDR, cReturnableClass_RDR,
+ monadClass_RDR, enumClass_RDR, ordClass_RDR,
+ ratioDataCon_RDR, assertErr_RDR,
+ ioDataCon_RDR, plusInteger_RDR, timesInteger_RDR,
+ fromInteger_RDR, fromRational_RDR,
+ )
+import TysPrim ( charPrimTyCon, addrPrimTyCon, intPrimTyCon,
+ floatPrimTyCon, doublePrimTyCon
+ )
+import TysWiredIn ( intTyCon )
+import Name ( NamedThing(..), mkSysLocalName, nameSrcLoc )
+import NameSet
+import UniqFM ( isNullUFM )
+import FiniteMap ( elemFM )
+import UniqSet ( emptyUniqSet )
+import List ( intersectBy )
+import ListSetOps ( unionLists, removeDups )
+import Maybes ( maybeToBool )
+import Outputable
\end{code}
*********************************************************
\begin{code}
-rnPat :: RdrNamePat -> RnM_Fixes s RenamedPat
+rnPat :: RdrNamePat -> RnMS (RenamedPat, FreeVars)
-rnPat WildPatIn = returnRn WildPatIn
+rnPat WildPatIn = returnRn (WildPatIn, emptyFVs)
rnPat (VarPatIn name)
- = lookupValue name `thenRn` \ vname ->
- returnRn (VarPatIn vname)
-
-rnPat (LitPatIn n) = returnRn (LitPatIn n)
+ = lookupBndrRn name `thenRn` \ vname ->
+ returnRn (VarPatIn vname, emptyFVs)
+
+rnPat (SigPatIn pat ty)
+ = doptRn Opt_GlasgowExts `thenRn` \ glaExts ->
+
+ if glaExts
+ then rnPat pat `thenRn` \ (pat', fvs1) ->
+ rnHsTypeFVs doc ty `thenRn` \ (ty', fvs2) ->
+ returnRn (SigPatIn pat' ty', fvs1 `plusFV` fvs2)
+
+ else addErrRn (patSigErr ty) `thenRn_`
+ rnPat pat
+ where
+ doc = text "a pattern type-signature"
+
+rnPat (LitPatIn s@(HsString _))
+ = lookupOrigName eqString_RDR `thenRn` \ eq ->
+ returnRn (LitPatIn s, unitFV eq)
+
+rnPat (LitPatIn lit)
+ = litFVs lit `thenRn` \ fvs ->
+ returnRn (LitPatIn lit, fvs)
+
+rnPat (NPatIn lit)
+ = rnOverLit lit `thenRn` \ (lit', fvs1) ->
+ lookupOrigName eqClass_RDR `thenRn` \ eq -> -- Needed to find equality on pattern
+ returnRn (NPatIn lit', fvs1 `addOneFV` eq)
+
+rnPat (NPlusKPatIn name lit)
+ = rnOverLit lit `thenRn` \ (lit', fvs) ->
+ lookupOrigName ordClass_RDR `thenRn` \ ord ->
+ lookupBndrRn name `thenRn` \ name' ->
+ returnRn (NPlusKPatIn name' lit', fvs `addOneFV` ord `addOneFV` minusName)
rnPat (LazyPatIn pat)
- = rnPat pat `thenRn` \ pat' ->
- returnRn (LazyPatIn pat')
+ = rnPat pat `thenRn` \ (pat', fvs) ->
+ returnRn (LazyPatIn pat', fvs)
rnPat (AsPatIn name pat)
- = rnPat pat `thenRn` \ pat' ->
- lookupValue name `thenRn` \ vname ->
- returnRn (AsPatIn vname pat')
-
-rnPat (ConPatIn name pats)
- = lookupValue name `thenRn` \ name' ->
- mapRn rnPat pats `thenRn` \ patslist ->
- returnRn (ConPatIn name' patslist)
-
-rnPat (ConOpPatIn pat1 name pat2)
- = lookupValue name `thenRn` \ name' ->
- rnPat pat1 `thenRn` \ pat1' ->
- rnPat pat2 `thenRn` \ pat2' ->
- precParsePat (ConOpPatIn pat1' name' pat2')
-
-rnPat neg@(NegPatIn pat)
- = getSrcLocRn `thenRn` \ src_loc ->
- addErrIfRn (not (is_lit pat)) (negPatErr neg src_loc)
- `thenRn_`
- rnPat pat `thenRn` \ pat' ->
- returnRn (NegPatIn pat')
- where
- is_lit (LitPatIn _) = True
- is_lit _ = False
+ = rnPat pat `thenRn` \ (pat', fvs) ->
+ lookupBndrRn name `thenRn` \ vname ->
+ returnRn (AsPatIn vname pat', fvs)
+
+rnPat (ConPatIn con pats)
+ = lookupOccRn con `thenRn` \ con' ->
+ mapFvRn rnPat pats `thenRn` \ (patslist, fvs) ->
+ returnRn (ConPatIn con' patslist, fvs `addOneFV` con')
+
+rnPat (ConOpPatIn pat1 con _ pat2)
+ = rnPat pat1 `thenRn` \ (pat1', fvs1) ->
+ lookupOccRn con `thenRn` \ con' ->
+ rnPat pat2 `thenRn` \ (pat2', fvs2) ->
+
+ getModeRn `thenRn` \ mode ->
+ -- See comments with rnExpr (OpApp ...)
+ (if isInterfaceMode mode
+ then returnRn (ConOpPatIn pat1' con' defaultFixity pat2')
+ else lookupFixityRn con' `thenRn` \ fixity ->
+ mkConOpPatRn pat1' con' fixity pat2'
+ ) `thenRn` \ pat' ->
+ returnRn (pat', fvs1 `plusFV` fvs2 `addOneFV` con')
rnPat (ParPatIn pat)
- = rnPat pat `thenRn` \ pat' ->
- returnRn (ParPatIn pat')
+ = rnPat pat `thenRn` \ (pat', fvs) ->
+ returnRn (ParPatIn pat', fvs)
rnPat (ListPatIn pats)
- = mapRn rnPat pats `thenRn` \ patslist ->
- returnRn (ListPatIn patslist)
+ = mapFvRn rnPat pats `thenRn` \ (patslist, fvs) ->
+ returnRn (ListPatIn patslist, fvs `addOneFV` listTyCon_name)
-rnPat (TuplePatIn pats)
- = mapRn rnPat pats `thenRn` \ patslist ->
- returnRn (TuplePatIn patslist)
+rnPat (TuplePatIn pats boxed)
+ = mapFvRn rnPat pats `thenRn` \ (patslist, fvs) ->
+ returnRn (TuplePatIn patslist boxed, fvs `addOneFV` tycon_name)
+ where
+ tycon_name = tupleTyCon_name boxed (length pats)
rnPat (RecPatIn con rpats)
- = panic "rnPat:RecPatIn"
-
+ = lookupOccRn con `thenRn` \ con' ->
+ rnRpats rpats `thenRn` \ (rpats', fvs) ->
+ returnRn (RecPatIn con' rpats', fvs `addOneFV` con')
+rnPat (TypePatIn name) =
+ (rnHsTypeFVs (text "type pattern") name) `thenRn` \ (name', fvs) ->
+ returnRn (TypePatIn name', fvs)
\end{code}
************************************************************************
************************************************************************
\begin{code}
-rnMatch :: RdrNameMatch -> RnM_Fixes s (RenamedMatch, FreeVars)
-
-rnMatch match
- = getSrcLocRn `thenRn` \ src_loc ->
- newLocalNames "variable in pattern"
- (binders `zip` repeat src_loc) `thenRn` \ new_binders ->
- extendSS2 new_binders (rnMatch_aux match)
- where
- binders = collect_binders match
-
- collect_binders :: RdrNameMatch -> [RdrName]
+rnMatch :: RdrNameMatch -> RnMS (RenamedMatch, FreeVars)
- collect_binders (GRHSMatch _) = []
- collect_binders (PatMatch pat match)
- = collectPatBinders pat ++ collect_binders match
+rnMatch match@(Match _ pats maybe_rhs_sig grhss)
+ = pushSrcLocRn (getMatchLoc match) $
-rnMatch_aux (PatMatch pat match)
- = rnPat pat `thenRn` \ pat' ->
- rnMatch_aux match `thenRn` \ (match', fvMatch) ->
- returnRn (PatMatch pat' match', fvMatch)
+ -- Find the universally quantified type variables
+ -- in the pattern type signatures
+ getLocalNameEnv `thenRn` \ name_env ->
+ let
+ tyvars_in_sigs = rhs_sig_tyvars `unionLists` tyvars_in_pats
+ rhs_sig_tyvars = case maybe_rhs_sig of
+ Nothing -> []
+ Just ty -> extractHsTyRdrTyVars ty
+ tyvars_in_pats = extractPatsTyVars pats
+ forall_tyvars = filter (not . (`elemFM` name_env)) tyvars_in_sigs
+ doc_sig = text "a pattern type-signature"
+ doc_pats = text "a pattern match"
+ in
+ bindNakedTyVarsFVRn doc_sig forall_tyvars $ \ sig_tyvars ->
+
+ -- Note that we do a single bindLocalsRn for all the
+ -- matches together, so that we spot the repeated variable in
+ -- f x x = 1
+ bindLocalsFVRn doc_pats (collectPatsBinders pats) $ \ new_binders ->
+
+ mapFvRn rnPat pats `thenRn` \ (pats', pat_fvs) ->
+ rnGRHSs grhss `thenRn` \ (grhss', grhss_fvs) ->
+ doptRn Opt_GlasgowExts `thenRn` \ opt_GlasgowExts ->
+ (case maybe_rhs_sig of
+ Nothing -> returnRn (Nothing, emptyFVs)
+ Just ty | opt_GlasgowExts -> rnHsTypeFVs doc_sig ty `thenRn` \ (ty', ty_fvs) ->
+ returnRn (Just ty', ty_fvs)
+ | otherwise -> addErrRn (patSigErr ty) `thenRn_`
+ returnRn (Nothing, emptyFVs)
+ ) `thenRn` \ (maybe_rhs_sig', ty_fvs) ->
-rnMatch_aux (GRHSMatch grhss_and_binds)
- = rnGRHSsAndBinds grhss_and_binds `thenRn` \ (grhss_and_binds', fvs) ->
- returnRn (GRHSMatch grhss_and_binds', fvs)
+ let
+ binder_set = mkNameSet new_binders
+ unused_binders = nameSetToList (binder_set `minusNameSet` grhss_fvs)
+ all_fvs = grhss_fvs `plusFV` pat_fvs `plusFV` ty_fvs
+ in
+ warnUnusedMatches unused_binders `thenRn_`
+
+ returnRn (Match sig_tyvars pats' maybe_rhs_sig' grhss', all_fvs)
+ -- The bindLocals and bindTyVars will remove the bound FVs
\end{code}
%************************************************************************
%* *
-\subsubsection{Guarded right-hand sides (GRHSsAndBinds)}
+\subsubsection{Guarded right-hand sides (GRHSs)}
%* *
%************************************************************************
\begin{code}
-rnGRHSsAndBinds :: RdrNameGRHSsAndBinds -> RnM_Fixes s (RenamedGRHSsAndBinds, FreeVars)
-
-rnGRHSsAndBinds (GRHSsAndBindsIn grhss binds)
- = rnBinds binds `thenRn` \ (binds', fvBinds, scope) ->
- extendSS2 scope (rnGRHSs grhss) `thenRn` \ (grhss', fvGRHS) ->
- returnRn (GRHSsAndBindsIn grhss' binds', fvBinds `unionUniqSets` fvGRHS)
+rnGRHSs :: RdrNameGRHSs -> RnMS (RenamedGRHSs, FreeVars)
+
+rnGRHSs (GRHSs grhss binds maybe_ty)
+ = ASSERT( not (maybeToBool maybe_ty) )
+ rnBinds binds $ \ binds' ->
+ mapFvRn rnGRHS grhss `thenRn` \ (grhss', fvGRHSs) ->
+ returnRn (GRHSs grhss' binds' Nothing, fvGRHSs)
+
+rnGRHS (GRHS guarded locn)
+ = doptRn Opt_GlasgowExts `thenRn` \ opt_GlasgowExts ->
+ pushSrcLocRn locn $
+ (if not (opt_GlasgowExts || is_standard_guard guarded) then
+ addWarnRn (nonStdGuardErr guarded)
+ else
+ returnRn ()
+ ) `thenRn_`
+
+ rnStmts guarded `thenRn` \ ((_, guarded'), fvs) ->
+ returnRn (GRHS guarded' locn, fvs)
where
- rnGRHSs [] = returnRn ([], emptyUniqSet)
-
- rnGRHSs (grhs:grhss)
- = rnGRHS grhs `thenRn` \ (grhs', fvs) ->
- rnGRHSs grhss `thenRn` \ (grhss', fvss) ->
- returnRn (grhs' : grhss', fvs `unionUniqSets` fvss)
-
- rnGRHS (GRHS guard expr locn)
- = pushSrcLocRn locn $
- rnExpr guard `thenRn` \ (guard', fvsg) ->
- rnExpr expr `thenRn` \ (expr', fvse) ->
- returnRn (GRHS guard' expr' locn, fvsg `unionUniqSets` fvse)
-
- rnGRHS (OtherwiseGRHS expr locn)
- = pushSrcLocRn locn $
- rnExpr expr `thenRn` \ (expr', fvs) ->
- returnRn (OtherwiseGRHS expr' locn, fvs)
+ -- Standard Haskell 1.4 guards are just a single boolean
+ -- expression, rather than a list of qualifiers as in the
+ -- Glasgow extension
+ is_standard_guard [ResultStmt _ _] = True
+ is_standard_guard [ExprStmt _ _, ResultStmt _ _] = True
+ is_standard_guard other = False
\end{code}
%************************************************************************
%************************************************************************
\begin{code}
-rnExprs :: [RdrNameHsExpr] -> RnM_Fixes s ([RenamedHsExpr], FreeVars)
-
-rnExprs [] = returnRn ([], emptyUniqSet)
+rnExprs :: [RdrNameHsExpr] -> RnMS ([RenamedHsExpr], FreeVars)
+rnExprs ls = rnExprs' ls emptyUniqSet
+ where
+ rnExprs' [] acc = returnRn ([], acc)
+ rnExprs' (expr:exprs) acc
+ = rnExpr expr `thenRn` \ (expr', fvExpr) ->
+
+ -- Now we do a "seq" on the free vars because typically it's small
+ -- or empty, especially in very long lists of constants
+ let
+ acc' = acc `plusFV` fvExpr
+ in
+ (grubby_seqNameSet acc' rnExprs') exprs acc' `thenRn` \ (exprs', fvExprs) ->
+ returnRn (expr':exprs', fvExprs)
-rnExprs (expr:exprs)
- = rnExpr expr `thenRn` \ (expr', fvExpr) ->
- rnExprs exprs `thenRn` \ (exprs', fvExprs) ->
- returnRn (expr':exprs', fvExpr `unionUniqSets` fvExprs)
+-- Grubby little function to do "seq" on namesets; replace by proper seq when GHC can do seq
+grubby_seqNameSet ns result | isNullUFM ns = result
+ | otherwise = result
\end{code}
-Variables. We look up the variable and return the resulting name. The
-interesting question is what the free-variable set should be. We
-don't want to return imported or prelude things as free vars. So we
-look at the RnName returned from the lookup, and make it part of the
-free-var set iff if it's a LocallyDefined RnName.
-
-ToDo: what about RnClassOps ???
-\end{itemize}
+Variables. We look up the variable and return the resulting name.
\begin{code}
-rnExpr :: RdrNameHsExpr -> RnM_Fixes s (RenamedHsExpr, FreeVars)
+rnExpr :: RdrNameHsExpr -> RnMS (RenamedHsExpr, FreeVars)
rnExpr (HsVar v)
- = lookupValue v `thenRn` \ vname ->
- returnRn (HsVar vname, fv_set vname)
- where
- fv_set vname@(RnName n)
- | isLocallyDefinedName n = unitUniqSet vname
- | otherwise = emptyUniqSet
+ = lookupOccRn v `thenRn` \ name ->
+ if name `hasKey` assertIdKey then
+ -- We expand it to (GHCerr.assert__ location)
+ mkAssertExpr
+ else
+ -- The normal case
+ returnRn (HsVar name, unitFV name)
+
+rnExpr (HsIPVar v)
+ = newIPName v `thenRn` \ name ->
+ returnRn (HsIPVar name, emptyFVs)
-rnExpr (HsLit lit)
- = returnRn (HsLit lit, emptyUniqSet)
+rnExpr (HsLit lit)
+ = litFVs lit `thenRn` \ fvs ->
+ returnRn (HsLit lit, fvs)
+
+rnExpr (HsOverLit lit)
+ = rnOverLit lit `thenRn` \ (lit', fvs) ->
+ returnRn (HsOverLit lit', fvs)
rnExpr (HsLam match)
= rnMatch match `thenRn` \ (match', fvMatch) ->
rnExpr (HsApp fun arg)
= rnExpr fun `thenRn` \ (fun',fvFun) ->
rnExpr arg `thenRn` \ (arg',fvArg) ->
- returnRn (HsApp fun' arg', fvFun `unionUniqSets` fvArg)
-
-rnExpr (OpApp e1 op e2)
- = rnExpr e1 `thenRn` \ (e1', fvs_e1) ->
- rnExpr op `thenRn` \ (op', fvs_op) ->
- rnExpr e2 `thenRn` \ (e2', fvs_e2) ->
- precParseExpr (OpApp e1' op' e2') `thenRn` \ exp ->
- returnRn (exp, (fvs_op `unionUniqSets` fvs_e1) `unionUniqSets` fvs_e2)
+ returnRn (HsApp fun' arg', fvFun `plusFV` fvArg)
+
+rnExpr (OpApp e1 op _ e2)
+ = rnExpr e1 `thenRn` \ (e1', fv_e1) ->
+ rnExpr e2 `thenRn` \ (e2', fv_e2) ->
+ rnExpr op `thenRn` \ (op'@(HsVar op_name), fv_op) ->
+
+ -- Deal with fixity
+ -- When renaming code synthesised from "deriving" declarations
+ -- we're in Interface mode, and we should ignore fixity; assume
+ -- that the deriving code generator got the association correct
+ -- Don't even look up the fixity when in interface mode
+ getModeRn `thenRn` \ mode ->
+ (if isInterfaceMode mode
+ then returnRn (OpApp e1' op' defaultFixity e2')
+ else lookupFixityRn op_name `thenRn` \ fixity ->
+ mkOpAppRn e1' op' fixity e2'
+ ) `thenRn` \ final_e ->
+
+ returnRn (final_e,
+ fv_e1 `plusFV` fv_op `plusFV` fv_e2)
rnExpr (NegApp e)
- = rnExpr e `thenRn` \ (e', fvs_e) ->
- returnRn (NegApp e', fvs_e)
+ = rnExpr e `thenRn` \ (e', fv_e) ->
+ mkNegAppRn e' `thenRn` \ final_e ->
+ returnRn (final_e, fv_e `addOneFV` negateName)
rnExpr (HsPar e)
= rnExpr e `thenRn` \ (e', fvs_e) ->
returnRn (HsPar e', fvs_e)
-rnExpr (SectionL expr op)
- = rnExpr expr `thenRn` \ (expr', fvs_expr) ->
- rnExpr op `thenRn` \ (op', fvs_op) ->
- returnRn (SectionL expr' op', fvs_op `unionUniqSets` fvs_expr)
-
-rnExpr (SectionR op expr)
- = rnExpr op `thenRn` \ (op', fvs_op) ->
- rnExpr expr `thenRn` \ (expr', fvs_expr) ->
- returnRn (SectionR op' expr', fvs_op `unionUniqSets` fvs_expr)
-
-rnExpr (CCall fun args may_gc is_casm fake_result_ty)
- = rnExprs args `thenRn` \ (args', fvs_args) ->
- returnRn (CCall fun args' may_gc is_casm fake_result_ty, fvs_args)
-
-rnExpr (HsSCC label expr)
+rnExpr section@(SectionL expr op)
+ = rnExpr expr `thenRn` \ (expr', fvs_expr) ->
+ rnExpr op `thenRn` \ (op', fvs_op) ->
+ checkSectionPrec "left" section op' expr' `thenRn_`
+ returnRn (SectionL expr' op', fvs_op `plusFV` fvs_expr)
+
+rnExpr section@(SectionR op expr)
+ = rnExpr op `thenRn` \ (op', fvs_op) ->
+ rnExpr expr `thenRn` \ (expr', fvs_expr) ->
+ checkSectionPrec "right" section op' expr' `thenRn_`
+ returnRn (SectionR op' expr', fvs_op `plusFV` fvs_expr)
+
+rnExpr (HsCCall fun args may_gc is_casm fake_result_ty)
+ -- Check out the comment on RnIfaces.getNonWiredDataDecl about ccalls
+ = lookupOrigNames [cCallableClass_RDR,
+ cReturnableClass_RDR,
+ ioDataCon_RDR] `thenRn` \ implicit_fvs ->
+ rnExprs args `thenRn` \ (args', fvs_args) ->
+ returnRn (HsCCall fun args' may_gc is_casm fake_result_ty,
+ fvs_args `plusFV` implicit_fvs)
+
+rnExpr (HsSCC lbl expr)
= rnExpr expr `thenRn` \ (expr', fvs_expr) ->
- returnRn (HsSCC label expr', fvs_expr)
+ returnRn (HsSCC lbl expr', fvs_expr)
rnExpr (HsCase expr ms src_loc)
= pushSrcLocRn src_loc $
rnExpr expr `thenRn` \ (new_expr, e_fvs) ->
- mapAndUnzipRn rnMatch ms `thenRn` \ (new_ms, ms_fvs) ->
- returnRn (HsCase new_expr new_ms src_loc, unionManyUniqSets (e_fvs : ms_fvs))
+ mapFvRn rnMatch ms `thenRn` \ (new_ms, ms_fvs) ->
+ returnRn (HsCase new_expr new_ms src_loc, e_fvs `plusFV` ms_fvs)
rnExpr (HsLet binds expr)
- = rnBinds binds `thenRn` \ (binds', fvBinds, new_binders) ->
- extendSS2 new_binders (rnExpr expr) `thenRn` \ (expr',fvExpr) ->
- returnRn (HsLet binds' expr', fvBinds `unionUniqSets` fvExpr)
+ = rnBinds binds $ \ binds' ->
+ rnExpr expr `thenRn` \ (expr',fvExpr) ->
+ returnRn (HsLet binds' expr', fvExpr)
+
+rnExpr (HsWith expr binds)
+ = rnExpr expr `thenRn` \ (expr',fvExpr) ->
+ rnIPBinds binds `thenRn` \ (binds',fvBinds) ->
+ returnRn (HsWith expr' binds', fvExpr `plusFV` fvBinds)
-rnExpr (HsDo stmts src_loc)
+rnExpr e@(HsDo do_or_lc stmts src_loc)
= pushSrcLocRn src_loc $
- rnStmts stmts `thenRn` \ (stmts', fvStmts) ->
- returnRn (HsDo stmts' src_loc, fvStmts)
+ lookupOrigNames implicit_rdr_names `thenRn` \ implicit_fvs ->
+ rnStmts stmts `thenRn` \ ((_, stmts'), fvs) ->
+ -- check the statement list ends in an expression
+ case last stmts' of {
+ ResultStmt _ _ -> returnRn () ;
+ _ -> addErrRn (doStmtListErr e)
+ } `thenRn_`
+ returnRn (HsDo do_or_lc stmts' src_loc, fvs `plusFV` implicit_fvs)
+ where
+ implicit_rdr_names = [foldr_RDR, build_RDR, monadClass_RDR]
+ -- Monad stuff should not be necessary for a list comprehension
+ -- but the typechecker looks up the bind and return Ids anyway
+ -- Oh well.
-rnExpr (ListComp expr quals)
- = rnQuals quals `thenRn` \ ((quals', qual_binders), fvQuals) ->
- extendSS2 qual_binders (rnExpr expr) `thenRn` \ (expr', fvExpr) ->
- returnRn (ListComp expr' quals', fvExpr `unionUniqSets` fvQuals)
rnExpr (ExplicitList exps)
- = rnExprs exps `thenRn` \ (exps', fvs) ->
- returnRn (ExplicitList exps', fvs)
+ = rnExprs exps `thenRn` \ (exps', fvs) ->
+ returnRn (ExplicitList exps', fvs `addOneFV` listTyCon_name)
+
+rnExpr (ExplicitTuple exps boxity)
+ = rnExprs exps `thenRn` \ (exps', fvs) ->
+ returnRn (ExplicitTuple exps' boxity, fvs `addOneFV` tycon_name)
+ where
+ tycon_name = tupleTyCon_name boxity (length exps)
-rnExpr (ExplicitTuple exps)
- = rnExprs exps `thenRn` \ (exps', fvExps) ->
- returnRn (ExplicitTuple exps', fvExps)
+rnExpr (RecordCon con_id rbinds)
+ = lookupOccRn con_id `thenRn` \ conname ->
+ rnRbinds "construction" rbinds `thenRn` \ (rbinds', fvRbinds) ->
+ returnRn (RecordCon conname rbinds', fvRbinds `addOneFV` conname)
-rnExpr (RecordCon con rbinds)
- = panic "rnExpr:RecordCon"
-rnExpr (RecordUpd exp rbinds)
- = panic "rnExpr:RecordUpd"
+rnExpr (RecordUpd expr rbinds)
+ = rnExpr expr `thenRn` \ (expr', fvExpr) ->
+ rnRbinds "update" rbinds `thenRn` \ (rbinds', fvRbinds) ->
+ returnRn (RecordUpd expr' rbinds', fvExpr `plusFV` fvRbinds)
rnExpr (ExprWithTySig expr pty)
- = rnExpr expr `thenRn` \ (expr', fvExpr) ->
- rnPolyType nullTyVarNamesEnv pty `thenRn` \ pty' ->
- returnRn (ExprWithTySig expr' pty', fvExpr)
+ = rnExpr expr `thenRn` \ (expr', fvExpr) ->
+ rnHsTypeFVs (text "an expression type signature") pty `thenRn` \ (pty', fvTy) ->
+ returnRn (ExprWithTySig expr' pty', fvExpr `plusFV` fvTy)
rnExpr (HsIf p b1 b2 src_loc)
= pushSrcLocRn src_loc $
rnExpr p `thenRn` \ (p', fvP) ->
rnExpr b1 `thenRn` \ (b1', fvB1) ->
rnExpr b2 `thenRn` \ (b2', fvB2) ->
- returnRn (HsIf p' b1' b2' src_loc, unionManyUniqSets [fvP, fvB1, fvB2])
+ returnRn (HsIf p' b1' b2' src_loc, plusFVs [fvP, fvB1, fvB2])
+
+rnExpr (HsType a)
+ = rnHsTypeFVs doc a `thenRn` \ (t, fvT) ->
+ returnRn (HsType t, fvT)
+ where
+ doc = text "renaming a type pattern"
rnExpr (ArithSeqIn seq)
- = rn_seq seq `thenRn` \ (new_seq, fvs) ->
- returnRn (ArithSeqIn new_seq, fvs)
+ = lookupOrigName enumClass_RDR `thenRn` \ enum ->
+ rn_seq seq `thenRn` \ (new_seq, fvs) ->
+ returnRn (ArithSeqIn new_seq, fvs `addOneFV` enum)
where
rn_seq (From expr)
= rnExpr expr `thenRn` \ (expr', fvExpr) ->
rn_seq (FromThen expr1 expr2)
= rnExpr expr1 `thenRn` \ (expr1', fvExpr1) ->
rnExpr expr2 `thenRn` \ (expr2', fvExpr2) ->
- returnRn (FromThen expr1' expr2', fvExpr1 `unionUniqSets` fvExpr2)
+ returnRn (FromThen expr1' expr2', fvExpr1 `plusFV` fvExpr2)
rn_seq (FromTo expr1 expr2)
= rnExpr expr1 `thenRn` \ (expr1', fvExpr1) ->
rnExpr expr2 `thenRn` \ (expr2', fvExpr2) ->
- returnRn (FromTo expr1' expr2', fvExpr1 `unionUniqSets` fvExpr2)
+ returnRn (FromTo expr1' expr2', fvExpr1 `plusFV` fvExpr2)
rn_seq (FromThenTo expr1 expr2 expr3)
= rnExpr expr1 `thenRn` \ (expr1', fvExpr1) ->
rnExpr expr2 `thenRn` \ (expr2', fvExpr2) ->
rnExpr expr3 `thenRn` \ (expr3', fvExpr3) ->
returnRn (FromThenTo expr1' expr2' expr3',
- unionManyUniqSets [fvExpr1, fvExpr2, fvExpr3])
+ plusFVs [fvExpr1, fvExpr2, fvExpr3])
+\end{code}
+
+These three are pattern syntax appearing in expressions.
+Since all the symbols are reservedops we can simply reject them.
+We return a (bogus) EWildPat in each case.
+
+\begin{code}
+rnExpr e@EWildPat = addErrRn (patSynErr e) `thenRn_`
+ returnRn (EWildPat, emptyFVs)
+
+rnExpr e@(EAsPat _ _) = addErrRn (patSynErr e) `thenRn_`
+ returnRn (EWildPat, emptyFVs)
+rnExpr e@(ELazyPat _) = addErrRn (patSynErr e) `thenRn_`
+ returnRn (EWildPat, emptyFVs)
\end{code}
+
+
%************************************************************************
%* *
-\subsubsection{@Qual@s: in list comprehensions}
+\subsubsection{@Rbinds@s and @Rpats@s: in record expressions}
+%* *
+%************************************************************************
+
+\begin{code}
+rnRbinds str rbinds
+ = mapRn_ field_dup_err dup_fields `thenRn_`
+ mapFvRn rn_rbind rbinds `thenRn` \ (rbinds', fvRbind) ->
+ returnRn (rbinds', fvRbind)
+ where
+ (_, dup_fields) = removeDups compare [ f | (f,_,_) <- rbinds ]
+
+ field_dup_err dups = addErrRn (dupFieldErr str dups)
+
+ rn_rbind (field, expr, pun)
+ = lookupGlobalOccRn field `thenRn` \ fieldname ->
+ rnExpr expr `thenRn` \ (expr', fvExpr) ->
+ returnRn ((fieldname, expr', pun), fvExpr `addOneFV` fieldname)
+
+rnRpats rpats
+ = mapRn_ field_dup_err dup_fields `thenRn_`
+ mapFvRn rn_rpat rpats `thenRn` \ (rpats', fvs) ->
+ returnRn (rpats', fvs)
+ where
+ (_, dup_fields) = removeDups compare [ f | (f,_,_) <- rpats ]
+
+ field_dup_err dups = addErrRn (dupFieldErr "pattern" dups)
+
+ rn_rpat (field, pat, pun)
+ = lookupGlobalOccRn field `thenRn` \ fieldname ->
+ rnPat pat `thenRn` \ (pat', fvs) ->
+ returnRn ((fieldname, pat', pun), fvs `addOneFV` fieldname)
+\end{code}
+
+%************************************************************************
+%* *
+\subsubsection{@rnIPBinds@s: in implicit parameter bindings} *
+%* *
+%************************************************************************
+
+\begin{code}
+rnIPBinds [] = returnRn ([], emptyFVs)
+rnIPBinds ((n, expr) : binds)
+ = newIPName n `thenRn` \ name ->
+ rnExpr expr `thenRn` \ (expr',fvExpr) ->
+ rnIPBinds binds `thenRn` \ (binds',fvBinds) ->
+ returnRn ((name, expr') : binds', fvExpr `plusFV` fvBinds)
+
+\end{code}
+
+%************************************************************************
+%* *
+\subsubsection{@Stmt@s: in @do@ expressions}
%* *
%************************************************************************
Quals.
\begin{code}
-rnQuals :: [RdrNameQual]
- -> RnM_Fixes s (([RenamedQual], -- renamed qualifiers
- [RnName]), -- qualifiers' binders
- FreeVars) -- free variables
-
-rnQuals [qual] -- must be at least one qual
- = rnQual qual `thenRn` \ ((new_qual, bs), fvs) ->
- returnRn (([new_qual], bs), fvs)
-
-rnQuals (qual: quals)
- = rnQual qual `thenRn` \ ((qual', bs1), fvQuals1) ->
- extendSS2 bs1 (rnQuals quals) `thenRn` \ ((quals', bs2), fvQuals2) ->
- returnRn
- ((qual' : quals', bs2 ++ bs1), -- The ones on the right (bs2) shadow the
- -- ones on the left (bs1)
- fvQuals1 `unionUniqSets` fvQuals2)
-
-rnQual (GeneratorQual pat expr)
- = rnExpr expr `thenRn` \ (expr', fvExpr) ->
- let
- binders = collectPatBinders pat
+rnStmts :: [RdrNameStmt]
+ -> RnMS (([Name], [RenamedStmt]), FreeVars)
+
+rnStmts []
+ = returnRn (([], []), emptyFVs)
+
+rnStmts (stmt:stmts)
+ = getLocalNameEnv `thenRn` \ name_env ->
+ rnStmt stmt $ \ stmt' ->
+ rnStmts stmts `thenRn` \ ((binders, stmts'), fvs) ->
+ returnRn ((binders, stmt' : stmts'), fvs)
+
+rnStmt :: RdrNameStmt
+ -> (RenamedStmt -> RnMS (([Name], a), FreeVars))
+ -> RnMS (([Name], a), FreeVars)
+-- The thing list of names returned is the list returned by the
+-- thing_inside, plus the binders of the arguments stmt
+
+-- Because of mutual recursion we have to pass in rnExpr.
+
+rnStmt (ParStmt stmtss) thing_inside
+ = mapFvRn rnStmts stmtss `thenRn` \ (bndrstmtss, fv_stmtss) ->
+ let binderss = map fst bndrstmtss
+ checkBndrs all_bndrs bndrs
+ = checkRn (null (intersectBy eqOcc all_bndrs bndrs)) err `thenRn_`
+ returnRn (bndrs ++ all_bndrs)
+ eqOcc n1 n2 = nameOccName n1 == nameOccName n2
+ err = text "duplicate binding in parallel list comprehension"
in
- getSrcLocRn `thenRn` \ src_loc ->
- newLocalNames "variable in list-comprehension-generator pattern"
- (binders `zip` repeat src_loc) `thenRn` \ new_binders ->
- extendSS new_binders (rnPat pat) `thenRn` \ pat' ->
+ foldlRn checkBndrs [] binderss `thenRn` \ new_binders ->
+ bindLocalNamesFV new_binders $
+ thing_inside (ParStmtOut bndrstmtss)`thenRn` \ ((rest_bndrs, result), fv_rest) ->
+ returnRn ((new_binders ++ rest_bndrs, result), fv_stmtss `plusFV` fv_rest)
- returnRn ((GeneratorQual pat' expr', new_binders), fvExpr)
+rnStmt (BindStmt pat expr src_loc) thing_inside
+ = pushSrcLocRn src_loc $
+ rnExpr expr `thenRn` \ (expr', fv_expr) ->
+ bindLocalsFVRn doc binders $ \ new_binders ->
+ rnPat pat `thenRn` \ (pat', fv_pat) ->
+ thing_inside (BindStmt pat' expr' src_loc) `thenRn` \ ((rest_binders, result), fvs) ->
+ -- ZZ is shadowing handled correctly?
+ returnRn ((new_binders ++ rest_binders, result),
+ fv_expr `plusFV` fvs `plusFV` fv_pat)
+ where
+ binders = collectPatBinders pat
+ doc = text "a pattern in do binding"
-rnQual (FilterQual expr)
- = rnExpr expr `thenRn` \ (expr', fvs) ->
- returnRn ((FilterQual expr', []), fvs)
+rnStmt (ExprStmt expr src_loc) thing_inside
+ = pushSrcLocRn src_loc $
+ rnExpr expr `thenRn` \ (expr', fv_expr) ->
+ thing_inside (ExprStmt expr' src_loc) `thenRn` \ (result, fvs) ->
+ returnRn (result, fv_expr `plusFV` fvs)
-rnQual (LetQual binds)
- = rnBinds binds `thenRn` \ (binds', binds_fvs, new_binders) ->
- returnRn ((LetQual binds', new_binders), binds_fvs)
+rnStmt (ResultStmt expr src_loc) thing_inside
+ = pushSrcLocRn src_loc $
+ rnExpr expr `thenRn` \ (expr', fv_expr) ->
+ thing_inside (ResultStmt expr' src_loc) `thenRn` \ (result, fvs) ->
+ returnRn (result, fv_expr `plusFV` fvs)
+
+rnStmt (LetStmt binds) thing_inside
+ = rnBinds binds $ \ binds' ->
+ let new_binders = collectHsBinders binds' in
+ thing_inside (LetStmt binds') `thenRn` \ ((rest_binders, result), fvs) ->
+ returnRn ((new_binders ++ rest_binders, result), fvs )
\end{code}
-
%************************************************************************
%* *
-\subsubsection{@Stmt@s: in @do@ expressions}
+\subsubsection{Precedence Parsing}
%* *
%************************************************************************
+@mkOpAppRn@ deals with operator fixities. The argument expressions
+are assumed to be already correctly arranged. It needs the fixities
+recorded in the OpApp nodes, because fixity info applies to the things
+the programmer actually wrote, so you can't find it out from the Name.
+
+Furthermore, the second argument is guaranteed not to be another
+operator application. Why? Because the parser parses all
+operator appications left-associatively, EXCEPT negation, which
+we need to handle specially.
+
\begin{code}
-rnStmts :: [RdrNameStmt] -> RnM_Fixes s ([RenamedStmt], FreeVars)
+mkOpAppRn :: RenamedHsExpr -- Left operand; already rearranged
+ -> RenamedHsExpr -> Fixity -- Operator and fixity
+ -> RenamedHsExpr -- Right operand (not an OpApp, but might
+ -- be a NegApp)
+ -> RnMS RenamedHsExpr
+
+---------------------------
+-- (e11 `op1` e12) `op2` e2
+mkOpAppRn e1@(OpApp e11 op1 fix1 e12) op2 fix2 e2
+ | nofix_error
+ = addErrRn (precParseErr (ppr_op op1,fix1) (ppr_op op2,fix2)) `thenRn_`
+ returnRn (OpApp e1 op2 fix2 e2)
+
+ | associate_right
+ = mkOpAppRn e12 op2 fix2 e2 `thenRn` \ new_e ->
+ returnRn (OpApp e11 op1 fix1 new_e)
+ where
+ (nofix_error, associate_right) = compareFixity fix1 fix2
+
+---------------------------
+-- (- neg_arg) `op` e2
+mkOpAppRn e1@(NegApp neg_arg) op2 fix2 e2
+ | nofix_error
+ = addErrRn (precParseErr (pp_prefix_minus,negateFixity) (ppr_op op2,fix2)) `thenRn_`
+ returnRn (OpApp e1 op2 fix2 e2)
+
+ | associate_right
+ = mkOpAppRn neg_arg op2 fix2 e2 `thenRn` \ new_e ->
+ returnRn (NegApp new_e)
+ where
+ (nofix_error, associate_right) = compareFixity negateFixity fix2
+
+---------------------------
+-- e1 `op` - neg_arg
+mkOpAppRn e1 op1 fix1 e2@(NegApp neg_arg) -- NegApp can occur on the right
+ | not associate_right -- We *want* right association
+ = addErrRn (precParseErr (ppr_op op1, fix1) (pp_prefix_minus, negateFixity)) `thenRn_`
+ returnRn (OpApp e1 op1 fix1 e2)
+ where
+ (_, associate_right) = compareFixity fix1 negateFixity
+
+---------------------------
+-- Default case
+mkOpAppRn e1 op fix e2 -- Default case, no rearrangment
+ = ASSERT2( right_op_ok fix e2,
+ ppr e1 $$ text "---" $$ ppr op $$ text "---" $$ ppr fix $$ text "---" $$ ppr e2
+ )
+ returnRn (OpApp e1 op fix e2)
+
+-- Parser left-associates everything, but
+-- derived instances may have correctly-associated things to
+-- in the right operarand. So we just check that the right operand is OK
+right_op_ok fix1 (OpApp _ _ fix2 _)
+ = not error_please && associate_right
+ where
+ (error_please, associate_right) = compareFixity fix1 fix2
+right_op_ok fix1 other
+ = True
-rnStmts [stmt@(ExprStmt _ _)] -- last stmt must be ExprStmt
- = rnStmt stmt `thenRn` \ ((stmt',[]), fvStmt) ->
- returnRn ([stmt'], fvStmt)
+-- Parser initially makes negation bind more tightly than any other operator
+mkNegAppRn neg_arg
+ =
+#ifdef DEBUG
+ getModeRn `thenRn` \ mode ->
+ ASSERT( not_op_app mode neg_arg )
+#endif
+ returnRn (NegApp neg_arg)
+
+not_op_app SourceMode (OpApp _ _ _ _) = False
+not_op_app mode other = True
+\end{code}
-rnStmts (stmt:stmts)
- = rnStmt stmt `thenRn` \ ((stmt',bs), fvStmt) ->
- extendSS2 bs (rnStmts stmts) `thenRn` \ (stmts', fvStmts) ->
- returnRn (stmt':stmts', fvStmt `unionUniqSets` fvStmts)
+\begin{code}
+mkConOpPatRn :: RenamedPat -> Name -> Fixity -> RenamedPat
+ -> RnMS RenamedPat
+mkConOpPatRn p1@(ConOpPatIn p11 op1 fix1 p12)
+ op2 fix2 p2
+ | nofix_error
+ = addErrRn (precParseErr (ppr_op op1,fix1) (ppr_op op2,fix2)) `thenRn_`
+ returnRn (ConOpPatIn p1 op2 fix2 p2)
-rnStmt (BindStmt pat expr src_loc)
- = pushSrcLocRn src_loc $
- rnExpr expr `thenRn` \ (expr', fvExpr) ->
- let
- binders = collectPatBinders pat
- in
- newLocalNames "variable in do binding"
- (binders `zip` repeat src_loc) `thenRn` \ new_binders ->
- extendSS new_binders (rnPat pat) `thenRn` \ pat' ->
+ | associate_right
+ = mkConOpPatRn p12 op2 fix2 p2 `thenRn` \ new_p ->
+ returnRn (ConOpPatIn p11 op1 fix1 new_p)
- returnRn ((BindStmt pat' expr' src_loc, new_binders), fvExpr)
+ where
+ (nofix_error, associate_right) = compareFixity fix1 fix2
-rnStmt (ExprStmt expr src_loc)
- =
- rnExpr expr `thenRn` \ (expr', fvs) ->
- returnRn ((ExprStmt expr' src_loc, []), fvs)
+mkConOpPatRn p1 op fix p2 -- Default case, no rearrangment
+ = ASSERT( not_op_pat p2 )
+ returnRn (ConOpPatIn p1 op fix p2)
+
+not_op_pat (ConOpPatIn _ _ _ _) = False
+not_op_pat other = True
+\end{code}
+
+\begin{code}
+checkPrecMatch :: Bool -> Name -> RenamedMatch -> RnMS ()
-rnStmt (LetStmt binds)
- = rnBinds binds `thenRn` \ (binds', binds_fvs, new_binders) ->
- returnRn ((LetStmt binds', new_binders), binds_fvs)
+checkPrecMatch False fn match
+ = returnRn ()
+checkPrecMatch True op (Match _ (p1:p2:_) _ _)
+ -- True indicates an infix lhs
+ = getModeRn `thenRn` \ mode ->
+ -- See comments with rnExpr (OpApp ...)
+ if isInterfaceMode mode
+ then returnRn ()
+ else checkPrec op p1 False `thenRn_`
+ checkPrec op p2 True
+
+checkPrecMatch True op _ = panic "checkPrecMatch"
+
+checkPrec op (ConOpPatIn _ op1 _ _) right
+ = lookupFixityRn op `thenRn` \ op_fix@(Fixity op_prec op_dir) ->
+ lookupFixityRn op1 `thenRn` \ op1_fix@(Fixity op1_prec op1_dir) ->
+ let
+ inf_ok = op1_prec > op_prec ||
+ (op1_prec == op_prec &&
+ (op1_dir == InfixR && op_dir == InfixR && right ||
+ op1_dir == InfixL && op_dir == InfixL && not right))
+
+ info = (ppr_op op, op_fix)
+ info1 = (ppr_op op1, op1_fix)
+ (infol, infor) = if right then (info, info1) else (info1, info)
+ in
+ checkRn inf_ok (precParseErr infol infor)
+
+checkPrec op pat right
+ = returnRn ()
+
+-- Check precedence of (arg op) or (op arg) respectively
+-- If arg is itself an operator application, its precedence should
+-- be higher than that of op
+checkSectionPrec left_or_right section op arg
+ = case arg of
+ OpApp _ op fix _ -> go_for_it (ppr_op op) fix
+ NegApp _ -> go_for_it pp_prefix_minus negateFixity
+ other -> returnRn ()
+ where
+ HsVar op_name = op
+ go_for_it pp_arg_op arg_fix@(Fixity arg_prec _)
+ = lookupFixityRn op_name `thenRn` \ op_fix@(Fixity op_prec _) ->
+ checkRn (op_prec < arg_prec)
+ (sectionPrecErr (ppr_op op_name, op_fix) (pp_arg_op, arg_fix) section)
+\end{code}
+
+Consider
+\begin{verbatim}
+ a `op1` b `op2` c
+\end{verbatim}
+@(compareFixity op1 op2)@ tells which way to arrange appication, or
+whether there's an error.
+
+\begin{code}
+compareFixity :: Fixity -> Fixity
+ -> (Bool, -- Error please
+ Bool) -- Associate to the right: a op1 (b op2 c)
+compareFixity (Fixity prec1 dir1) (Fixity prec2 dir2)
+ = case prec1 `compare` prec2 of
+ GT -> left
+ LT -> right
+ EQ -> case (dir1, dir2) of
+ (InfixR, InfixR) -> right
+ (InfixL, InfixL) -> left
+ _ -> error_please
+ where
+ right = (False, True)
+ left = (False, False)
+ error_please = (True, False)
\end{code}
%************************************************************************
%* *
-\subsubsection{Precedence Parsing}
+\subsubsection{Literals}
%* *
%************************************************************************
-\begin{code}
-precParseExpr :: RenamedHsExpr -> RnM_Fixes s RenamedHsExpr
-precParsePat :: RenamedPat -> RnM_Fixes s RenamedPat
-
-precParseExpr exp@(OpApp (NegApp e1) (HsVar op) e2)
- = lookupFixity op `thenRn` \ (op_fix, op_prec) ->
- if 6 < op_prec then
- -- negate precedence 6 wired in
- -- (-x)*y ==> -(x*y)
- precParseExpr (OpApp e1 (HsVar op) e2) `thenRn` \ op_app ->
- returnRn (NegApp op_app)
- else
- returnRn exp
-
-precParseExpr exp@(OpApp (OpApp e11 (HsVar op1) e12) (HsVar op) e2)
- = lookupFixity op `thenRn` \ (op_fix, op_prec) ->
- lookupFixity op1 `thenRn` \ (op1_fix, op1_prec) ->
- case cmp op1_prec op_prec of
- LT_ -> rearrange
- EQ_ -> case (op1_fix, op_fix) of
- (INFIXR, INFIXR) -> rearrange
- (INFIXL, INFIXL) -> returnRn exp
- _ -> getSrcLocRn `thenRn` \ src_loc ->
- failButContinueRn exp
- (precParseErr (op1,op1_fix,op1_prec) (op,op_fix,op_prec) src_loc)
- GT__ -> returnRn exp
- where
- rearrange = precParseExpr (OpApp e12 (HsVar op) e2) `thenRn` \ e2' ->
- returnRn (OpApp e11 (HsVar op1) e2')
+When literals occur we have to make sure
+that the types and classes they involve
+are made available.
-precParseExpr exp = returnRn exp
+\begin{code}
+litFVs (HsChar c)
+ = checkRn (inCharRange c) (bogusCharError c) `thenRn_`
+ returnRn (unitFV charTyCon_name)
+
+litFVs (HsCharPrim c) = returnRn (unitFV (getName charPrimTyCon))
+litFVs (HsString s) = returnRn (mkFVs [listTyCon_name, charTyCon_name])
+litFVs (HsStringPrim s) = returnRn (unitFV (getName addrPrimTyCon))
+litFVs (HsInt i) = returnRn (unitFV (getName intTyCon))
+litFVs (HsIntPrim i) = returnRn (unitFV (getName intPrimTyCon))
+litFVs (HsFloatPrim f) = returnRn (unitFV (getName floatPrimTyCon))
+litFVs (HsDoublePrim d) = returnRn (unitFV (getName doublePrimTyCon))
+litFVs (HsLitLit l bogus_ty) = lookupOrigName cCallableClass_RDR `thenRn` \ cc ->
+ returnRn (unitFV cc)
+litFVs lit = pprPanic "RnExpr.litFVs" (ppr lit) -- HsInteger and HsRat only appear
+ -- in post-typechecker translations
+
+rnOverLit (HsIntegral i)
+ | inIntRange i
+ = returnRn (HsIntegral i, unitFV fromIntegerName)
+ | otherwise
+ = lookupOrigNames [fromInteger_RDR, plusInteger_RDR, timesInteger_RDR] `thenRn` \ ns ->
+ -- Big integers are built, using + and *, out of small integers
+ -- [No particular reason why we use fromIntegerName in one case can
+ -- fromInteger_RDR in the other; but plusInteger_RDR means we
+ -- can get away without plusIntegerName altogether.]
+ returnRn (HsIntegral i, ns)
+
+rnOverLit (HsFractional i)
+ = lookupOrigNames [fromRational_RDR, ratioDataCon_RDR,
+ plusInteger_RDR, timesInteger_RDR] `thenRn` \ ns ->
+ -- We have to make sure that the Ratio type is imported with
+ -- its constructor, because literals of type Ratio t are
+ -- built with that constructor.
+ -- The Rational type is needed too, but that will come in
+ -- when fractionalClass does.
+ -- The plus/times integer operations may be needed to construct the numerator
+ -- and denominator (see DsUtils.mkIntegerLit)
+ returnRn (HsFractional i, ns)
+\end{code}
+%************************************************************************
+%* *
+\subsubsection{Assertion utils}
+%* *
+%************************************************************************
-precParsePat pat@(ConOpPatIn (NegPatIn e1) op e2)
- = lookupFixity op `thenRn` \ (op_fix, op_prec) ->
- if 6 < op_prec then
- -- negate precedence 6 wired in
- getSrcLocRn `thenRn` \ src_loc ->
- failButContinueRn pat (precParseNegPatErr (op,op_fix,op_prec) src_loc)
- else
- returnRn pat
-
-precParsePat pat@(ConOpPatIn (ConOpPatIn p11 op1 p12) op p2)
- = lookupFixity op `thenRn` \ (op_fix, op_prec) ->
- lookupFixity op1 `thenRn` \ (op1_fix, op1_prec) ->
- case cmp op1_prec op_prec of
- LT_ -> rearrange
- EQ_ -> case (op1_fix, op_fix) of
- (INFIXR, INFIXR) -> rearrange
- (INFIXL, INFIXL) -> returnRn pat
- _ -> getSrcLocRn `thenRn` \ src_loc ->
- failButContinueRn pat
- (precParseErr (op1,op1_fix,op1_prec) (op,op_fix,op_prec) src_loc)
- GT__ -> returnRn pat
- where
- rearrange = precParsePat (ConOpPatIn p12 op p2) `thenRn` \ p2' ->
- returnRn (ConOpPatIn p11 op1 p2')
+\begin{code}
+mkAssertExpr :: RnMS (RenamedHsExpr, FreeVars)
+mkAssertExpr =
+ lookupOrigName assertErr_RDR `thenRn` \ name ->
+ getSrcLocRn `thenRn` \ sloc ->
-precParsePat pat = returnRn pat
+ -- if we're ignoring asserts, return (\ _ e -> e)
+ -- if not, return (assertError "src-loc")
+ if opt_IgnoreAsserts then
+ getUniqRn `thenRn` \ uniq ->
+ let
+ vname = mkSysLocalName uniq SLIT("v")
+ expr = HsLam ignorePredMatch
+ loc = nameSrcLoc vname
+ ignorePredMatch = mkSimpleMatch [WildPatIn, VarPatIn vname] (HsVar vname) Nothing loc
+ in
+ returnRn (expr, unitFV name)
+ else
+ let
+ expr =
+ HsApp (HsVar name)
+ (HsLit (HsString (_PK_ (showSDoc (ppr sloc)))))
-data INFIX = INFIXL | INFIXR | INFIXN
+ in
+ returnRn (expr, unitFV name)
-lookupFixity :: RnName -> RnM_Fixes s (INFIX, Int)
-lookupFixity op
- = getExtraRn `thenRn` \ fixity_fm ->
- case lookupUFM fixity_fm op of
- Nothing -> returnRn (INFIXL, 9)
- Just (InfixL _ n) -> returnRn (INFIXL, n)
- Just (InfixR _ n) -> returnRn (INFIXR, n)
- Just (InfixN _ n) -> returnRn (INFIXN, n)
\end{code}
+%************************************************************************
+%* *
+\subsubsection{Errors}
+%* *
+%************************************************************************
+
\begin{code}
-negPatErr pat src_loc
- = addErrLoc src_loc "prefix `-' not applied to literal in pattern" ( \sty ->
- ppr sty pat)
-
-precParseNegPatErr op src_loc
- = addErrLoc src_loc "precedence parsing error" (\ sty ->
- ppBesides [ppStr "prefix `-' has lower precedence than ", pp_op sty op, ppStr " in pattern"])
-
-precParseErr op1 op2 src_loc
- = addErrLoc src_loc "precedence parsing error" (\ sty ->
- ppBesides [ppStr "cannot mix ", pp_op sty op1, ppStr " and ", pp_op sty op2,
- ppStr " in the same infix expression"])
-
-pp_op sty (op, fix, prec) = ppBesides [pprOp sty op, ppLparen, pp_fix fix, ppSP, ppInt prec, ppRparen]
-pp_fix INFIXL = ppStr "infixl"
-pp_fix INFIXR = ppStr "infixr"
-pp_fix INFIXN = ppStr "infix"
+ppr_op op = quotes (ppr op) -- Here, op can be a Name or a (Var n), where n is a Name
+ppr_opfix (pp_op, fixity) = pp_op <+> brackets (ppr fixity)
+pp_prefix_minus = ptext SLIT("prefix `-'")
+
+dupFieldErr str (dup:rest)
+ = hsep [ptext SLIT("duplicate field name"),
+ quotes (ppr dup),
+ ptext SLIT("in record"), text str]
+
+precParseErr op1 op2
+ = hang (ptext SLIT("precedence parsing error"))
+ 4 (hsep [ptext SLIT("cannot mix"), ppr_opfix op1, ptext SLIT("and"),
+ ppr_opfix op2,
+ ptext SLIT("in the same infix expression")])
+
+sectionPrecErr op arg_op section
+ = vcat [ptext SLIT("The operator") <+> ppr_opfix op <+> ptext SLIT("of a section"),
+ nest 4 (ptext SLIT("must have lower precedence than the operand") <+> ppr_opfix arg_op),
+ nest 4 (ptext SLIT("In the section:") <+> quotes (ppr section))]
+
+nonStdGuardErr guard
+ = hang (ptext
+ SLIT("accepting non-standard pattern guards (-fglasgow-exts to suppress this message)")
+ ) 4 (ppr guard)
+
+patSigErr ty
+ = (ptext SLIT("Illegal signature in pattern:") <+> ppr ty)
+ $$ nest 4 (ptext SLIT("Use -fglasgow-exts to permit it"))
+
+patSynErr e
+ = sep [ptext SLIT("Pattern syntax in expression context:"),
+ nest 4 (ppr e)]
+
+doStmtListErr e
+ = sep [ptext SLIT("`do' statements must end in expression:"),
+ nest 4 (ppr e)]
+
+bogusCharError c
+ = ptext SLIT("character literal out of range: '\\") <> int c <> char '\''
\end{code}
projects / ghc-hetmet.git / blobdiff