Template Haskell: allow type splices

[ghc-hetmet.git] / compiler / rename / RnExpr.lhs

diff --git a/compiler/rename/RnExpr.lhs b/compiler/rename/RnExpr.lhs
index d29a634..32d4c4c 100644 (file)
--- a/compiler/rename/RnExpr.lhs
+++ b/compiler/rename/RnExpr.lhs
@@ -20,20 +20,19 @@ module RnExpr (
 import {-# SOURCE #-} TcSplice( runQuasiQuoteExpr )
 #endif         /* GHCI */
 
-import RnSource  ( rnSrcDecls, rnSplice, checkTH ) 
+import RnSource  ( rnSrcDecls )
 import RnBinds   ( rnLocalBindsAndThen, rnValBindsLHS, rnValBindsRHS,
                    rnMatchGroup, makeMiniFixityEnv) 
 import HsSyn
 import TcRnMonad
+import TcEnv           ( thRnBrack )
 import RnEnv
-import RnTypes         ( rnHsTypeFVs, 
+import RnTypes         ( rnHsTypeFVs, rnSplice, checkTH,
                          mkOpFormRn, mkOpAppRn, mkNegAppRn, checkSectionPrec)
-import RnPat            (rnQuasiQuote, rnOverLit, rnPatsAndThen_LocalRightwards, rnBindPat,
-                         localRecNameMaker, rnLit,
-                        rnHsRecFields_Con, rnHsRecFields_Update, checkTupSize)
+import RnPat
 import DynFlags                ( DynFlag(..) )
 import BasicTypes      ( FixityDirection(..) )
-import PrelNames       ( thFAKE, hasKey, assertIdKey, assertErrorName,
+import PrelNames       ( hasKey, assertIdKey, assertErrorName,
                          loopAName, choiceAName, appAName, arrAName, composeAName, firstAName,
                          negateName, thenMName, bindMName, failMName, groupWithName )
 
@@ -62,15 +61,6 @@ thenM = (>>=)
 
 thenM_ :: Monad a => a b -> a c -> a c
 thenM_ = (>>)
-
-returnM :: Monad m => a -> m a
-returnM = return
-
-mappM :: (Monad m) => (a -> m b) -> [a] -> m [b]
-mappM = mapM
-
-checkM :: Monad m => Bool -> m () -> m ()
-checkM = unless
 \end{code}
 
 %************************************************************************
@@ -83,7 +73,7 @@ checkM = unless
 rnExprs :: [LHsExpr RdrName] -> RnM ([LHsExpr Name], FreeVars)
 rnExprs ls = rnExprs' ls emptyUniqSet
  where
-  rnExprs' [] acc = returnM ([], acc)
+  rnExprs' [] acc = return ([], acc)
   rnExprs' (expr:exprs) acc
    = rnLExpr expr              `thenM` \ (expr', fvExpr) ->
 
@@ -93,7 +83,7 @@ rnExprs ls = rnExprs' ls emptyUniqSet
        acc' = acc `plusFV` fvExpr
     in
     acc' `seq` rnExprs' exprs acc' `thenM` \ (exprs', fvExprs) ->
-    returnM (expr':exprs', fvExprs)
+    return (expr':exprs', fvExprs)
 \end{code}
 
 Variables. We look up the variable and return the resulting name. 
@@ -104,21 +94,24 @@ rnLExpr = wrapLocFstM rnExpr
 
 rnExpr :: HsExpr RdrName -> RnM (HsExpr Name, FreeVars)
 
+finishHsVar :: Name -> RnM (HsExpr Name, FreeVars)
+-- Separated from rnExpr because it's also used
+-- when renaming infix expressions
+-- See Note [Adding the implicit parameter to 'assert']
+finishHsVar name 
+ = do { ignore_asserts <- doptM Opt_IgnoreAsserts
+      ; if ignore_asserts || not (name `hasKey` assertIdKey)
+       then return (HsVar name, unitFV name)
+       else do { e <- mkAssertErrorExpr
+               ; return (e, unitFV name) } }
+
 rnExpr (HsVar v)
-  = do name           <- lookupOccRn v
-       ignore_asserts <- doptM Opt_IgnoreAsserts
-       finish_var ignore_asserts name
-  where
-    finish_var ignore_asserts name
-       | ignore_asserts || not (name `hasKey` assertIdKey)
-       = return (HsVar name, unitFV name)
-       | otherwise
-       = do { (e, fvs) <- mkAssertErrorExpr
-             ; return (e, fvs `addOneFV` name) }
+  = do name <- lookupOccRn v
+       finishHsVar name
 
 rnExpr (HsIPVar v)
   = newIPNameRn v              `thenM` \ name ->
-    returnM (HsIPVar name, emptyFVs)
+    return (HsIPVar name, emptyFVs)
 
 rnExpr (HsLit lit@(HsString s))
   = do {
@@ -127,59 +120,56 @@ rnExpr (HsLit lit@(HsString s))
             rnExpr (HsOverLit (mkHsIsString s placeHolderType))
         else -- Same as below
            rnLit lit           `thenM_`
-            returnM (HsLit lit, emptyFVs)
+            return (HsLit lit, emptyFVs)
        }
 
 rnExpr (HsLit lit) 
   = rnLit lit          `thenM_`
-    returnM (HsLit lit, emptyFVs)
+    return (HsLit lit, emptyFVs)
 
 rnExpr (HsOverLit lit) 
   = rnOverLit lit              `thenM` \ (lit', fvs) ->
-    returnM (HsOverLit lit', fvs)
+    return (HsOverLit lit', fvs)
 
 rnExpr (HsApp fun arg)
   = rnLExpr fun                `thenM` \ (fun',fvFun) ->
     rnLExpr arg                `thenM` \ (arg',fvArg) ->
-    returnM (HsApp fun' arg', fvFun `plusFV` fvArg)
-
-rnExpr (OpApp e1 op _ e2) 
-  = rnLExpr e1                         `thenM` \ (e1', fv_e1) ->
-    rnLExpr e2                         `thenM` \ (e2', fv_e2) ->
-    rnLExpr op                         `thenM` \ (op'@(L _ (HsVar op_name)), fv_op) ->
-
+    return (HsApp fun' arg', fvFun `plusFV` fvArg)
+
+rnExpr (OpApp e1 (L op_loc (HsVar op_rdr)) _ e2) 
+  = do { (e1', fv_e1) <- rnLExpr e1
+       ; (e2', fv_e2) <- rnLExpr e2
+       ; op_name <- setSrcSpan op_loc (lookupOccRn op_rdr)
+       ; (op', fv_op) <- finishHsVar op_name
+               -- NB: op' is usually just a variable, but might be
+               --     an applicatoin (assert "Foo.hs:47")
        -- Deal with fixity
        -- When renaming code synthesised from "deriving" declarations
        -- we used to avoid fixity stuff, but we can't easily tell any
        -- more, so I've removed the test.  Adding HsPars in TcGenDeriv
        -- should prevent bad things happening.
-    lookupFixityRn op_name             `thenM` \ fixity ->
-    mkOpAppRn e1' op' fixity e2'       `thenM` \ final_e -> 
-
-    returnM (final_e,
-             fv_e1 `plusFV` fv_op `plusFV` fv_e2)
+       ; fixity <- lookupFixityRn op_name
+       ; final_e <- mkOpAppRn e1' (L op_loc op') fixity e2'
+       ; return (final_e, fv_e1 `plusFV` fv_op `plusFV` fv_e2) }
 
 rnExpr (NegApp e _)
   = rnLExpr e                  `thenM` \ (e', fv_e) ->
     lookupSyntaxName negateName        `thenM` \ (neg_name, fv_neg) ->
     mkNegAppRn e' neg_name     `thenM` \ final_e ->
-    returnM (final_e, fv_e `plusFV` fv_neg)
-
-rnExpr (HsPar e)
-  = rnLExpr e          `thenM` \ (e', fvs_e) ->
-    returnM (HsPar e', fvs_e)
+    return (final_e, fv_e `plusFV` fv_neg)
 
+------------------------------------------
 -- Template Haskell extensions
 -- Don't ifdef-GHCI them because we want to fail gracefully
 -- (not with an rnExpr crash) in a stage-1 compiler.
 rnExpr e@(HsBracket br_body)
   = checkTH e "bracket"                `thenM_`
     rnBracket br_body          `thenM` \ (body', fvs_e) ->
-    returnM (HsBracket body', fvs_e)
+    return (HsBracket body', fvs_e)
 
 rnExpr (HsSpliceE splice)
   = rnSplice splice            `thenM` \ (splice', fvs) ->
-    returnM (HsSpliceE splice', fvs)
+    return (HsSpliceE splice', fvs)
 
 #ifndef GHCI
 rnExpr e@(HsQuasiQuoteE _) = pprPanic "Cant do quasiquotation without GHCi" (ppr e)
@@ -188,45 +178,54 @@ rnExpr (HsQuasiQuoteE qq)
   = rnQuasiQuote qq            `thenM` \ (qq', fvs_qq) ->
     runQuasiQuoteExpr qq'      `thenM` \ (L _ expr') ->
     rnExpr expr'               `thenM` \ (expr'', fvs_expr) ->
-    returnM (expr'', fvs_qq `plusFV` fvs_expr)
+    return (expr'', fvs_qq `plusFV` fvs_expr)
 #endif         /* GHCI */
 
-rnExpr section@(SectionL expr op)
-  = rnLExpr expr               `thenM` \ (expr', fvs_expr) ->
-    rnLExpr op                 `thenM` \ (op', fvs_op) ->
-    checkSectionPrec InfixL section op' expr' `thenM_`
-    returnM (SectionL expr' op', fvs_op `plusFV` fvs_expr)
+---------------------------------------------
+--     Sections
+-- See Note [Parsing sections] in Parser.y.pp
+rnExpr (HsPar (L loc (section@(SectionL {}))))
+  = do { (section', fvs) <- rnSection section
+       ; return (HsPar (L loc section'), fvs) }
 
-rnExpr section@(SectionR op expr)
-  = rnLExpr op                                 `thenM` \ (op',   fvs_op) ->
-    rnLExpr expr                                       `thenM` \ (expr', fvs_expr) ->
-    checkSectionPrec InfixR section op' expr'  `thenM_`
-    returnM (SectionR op' expr', fvs_op `plusFV` fvs_expr)
+rnExpr (HsPar (L loc (section@(SectionR {}))))
+  = do { (section', fvs) <- rnSection section
+       ; return (HsPar (L loc section'), fvs) }
 
+rnExpr (HsPar e)
+  = do { (e', fvs_e) <- rnLExpr e
+       ; return (HsPar e', fvs_e) }
+
+rnExpr expr@(SectionL {})
+  = do { addErr (sectionErr expr); rnSection expr }
+rnExpr expr@(SectionR {})
+  = do { addErr (sectionErr expr); rnSection expr }
+
+---------------------------------------------
 rnExpr (HsCoreAnn ann expr)
   = rnLExpr expr `thenM` \ (expr', fvs_expr) ->
-    returnM (HsCoreAnn ann expr', fvs_expr)
+    return (HsCoreAnn ann expr', fvs_expr)
 
 rnExpr (HsSCC lbl expr)
   = rnLExpr expr               `thenM` \ (expr', fvs_expr) ->
-    returnM (HsSCC lbl expr', fvs_expr)
+    return (HsSCC lbl expr', fvs_expr)
 rnExpr (HsTickPragma info expr)
   = rnLExpr expr               `thenM` \ (expr', fvs_expr) ->
-    returnM (HsTickPragma info expr', fvs_expr)
+    return (HsTickPragma info expr', fvs_expr)
 
 rnExpr (HsLam matches)
   = rnMatchGroup LambdaExpr matches    `thenM` \ (matches', fvMatch) ->
-    returnM (HsLam matches', fvMatch)
+    return (HsLam matches', fvMatch)
 
 rnExpr (HsCase expr matches)
   = rnLExpr expr                       `thenM` \ (new_expr, e_fvs) ->
     rnMatchGroup CaseAlt matches       `thenM` \ (new_matches, ms_fvs) ->
-    returnM (HsCase new_expr new_matches, e_fvs `plusFV` ms_fvs)
+    return (HsCase new_expr new_matches, e_fvs `plusFV` ms_fvs)
 
 rnExpr (HsLet binds expr)
   = rnLocalBindsAndThen binds          $ \ binds' ->
     rnLExpr expr                        `thenM` \ (expr',fvExpr) ->
-    returnM (HsLet binds' expr', fvExpr)
+    return (HsLet binds' expr', fvExpr)
 
 rnExpr (HsDo do_or_lc stmts body _)
   = do         { ((stmts', body'), fvs) <- rnStmts do_or_lc stmts $
@@ -235,16 +234,16 @@ rnExpr (HsDo do_or_lc stmts body _)
 
 rnExpr (ExplicitList _ exps)
   = rnExprs exps                       `thenM` \ (exps', fvs) ->
-    returnM  (ExplicitList placeHolderType exps', fvs)
+    return  (ExplicitList placeHolderType exps', fvs)
 
 rnExpr (ExplicitPArr _ exps)
   = rnExprs exps                       `thenM` \ (exps', fvs) ->
-    returnM  (ExplicitPArr placeHolderType exps', fvs)
+    return  (ExplicitPArr placeHolderType exps', fvs)
 
 rnExpr (ExplicitTuple exps boxity)
   = checkTupSize (length exps)                 `thenM_`
     rnExprs exps                               `thenM` \ (exps', fvs) ->
-    returnM (ExplicitTuple exps' boxity, fvs)
+    return (ExplicitTuple exps' boxity, fvs)
 
 rnExpr (RecordCon con_id _ rbinds)
   = do { conname <- lookupLocatedOccRn con_id
@@ -270,21 +269,21 @@ rnExpr (HsIf p b1 b2)
   = rnLExpr p          `thenM` \ (p', fvP) ->
     rnLExpr b1         `thenM` \ (b1', fvB1) ->
     rnLExpr b2         `thenM` \ (b2', fvB2) ->
-    returnM (HsIf p' b1' b2', plusFVs [fvP, fvB1, fvB2])
+    return (HsIf p' b1' b2', plusFVs [fvP, fvB1, fvB2])
 
 rnExpr (HsType a)
   = rnHsTypeFVs doc a  `thenM` \ (t, fvT) -> 
-    returnM (HsType t, fvT)
+    return (HsType t, fvT)
   where 
     doc = text "In a type argument"
 
 rnExpr (ArithSeq _ seq)
   = rnArithSeq seq      `thenM` \ (new_seq, fvs) ->
-    returnM (ArithSeq noPostTcExpr new_seq, fvs)
+    return (ArithSeq noPostTcExpr new_seq, fvs)
 
 rnExpr (PArrSeq _ seq)
   = rnArithSeq seq      `thenM` \ (new_seq, fvs) ->
-    returnM (PArrSeq noPostTcExpr new_seq, fvs)
+    return (PArrSeq noPostTcExpr new_seq, fvs)
 \end{code}
 
 These three are pattern syntax appearing in expressions.
@@ -309,12 +308,12 @@ rnExpr (HsProc pat body)
   = newArrowScope $
     rnPatsAndThen_LocalRightwards ProcExpr [pat] $ \ [pat'] ->
     rnCmdTop body               `thenM` \ (body',fvBody) ->
-    returnM (HsProc pat' body', fvBody)
+    return (HsProc pat' body', fvBody)
 
 rnExpr (HsArrApp arrow arg _ ho rtl)
   = select_arrow_scope (rnLExpr arrow) `thenM` \ (arrow',fvArrow) ->
     rnLExpr arg                                `thenM` \ (arg',fvArg) ->
-    returnM (HsArrApp arrow' arg' placeHolderType ho rtl,
+    return (HsArrApp arrow' arg' placeHolderType ho rtl,
             fvArrow `plusFV` fvArg)
   where
     select_arrow_scope tc = case ho of
@@ -333,18 +332,34 @@ rnExpr (HsArrForm op (Just _) [arg1, arg2])
     lookupFixityRn op_name             `thenM` \ fixity ->
     mkOpFormRn arg1' op' fixity arg2'  `thenM` \ final_e -> 
 
-    returnM (final_e,
+    return (final_e,
              fv_arg1 `plusFV` fv_op `plusFV` fv_arg2)
 
 rnExpr (HsArrForm op fixity cmds)
   = escapeArrowScope (rnLExpr op)      `thenM` \ (op',fvOp) ->
     rnCmdArgs cmds                     `thenM` \ (cmds',fvCmds) ->
-    returnM (HsArrForm op' fixity cmds', fvOp `plusFV` fvCmds)
+    return (HsArrForm op' fixity cmds', fvOp `plusFV` fvCmds)
 
 rnExpr other = pprPanic "rnExpr: unexpected expression" (ppr other)
        -- HsWrap
-\end{code}
 
+----------------------
+-- See Note [Parsing sections] in Parser.y.pp
+rnSection :: HsExpr RdrName -> RnM (HsExpr Name, FreeVars)
+rnSection section@(SectionR op expr)
+  = do { (op', fvs_op)     <- rnLExpr op
+       ; (expr', fvs_expr) <- rnLExpr expr
+       ; checkSectionPrec InfixR section op' expr'
+       ; return (SectionR op' expr', fvs_op `plusFV` fvs_expr) }
+
+rnSection section@(SectionL expr op)
+  = do { (expr', fvs_expr) <- rnLExpr expr
+       ; (op', fvs_op)     <- rnLExpr op
+       ; checkSectionPrec InfixL section op' expr'
+       ; return (SectionL expr' op', fvs_op `plusFV` fvs_expr) }
+
+rnSection other = pprPanic "rnSection" (ppr other)
+\end{code}
 
 %************************************************************************
 %*                                                                     *
@@ -354,11 +369,11 @@ rnExpr other = pprPanic "rnExpr: unexpected expression" (ppr other)
 
 \begin{code}
 rnCmdArgs :: [LHsCmdTop RdrName] -> RnM ([LHsCmdTop Name], FreeVars)
-rnCmdArgs [] = returnM ([], emptyFVs)
+rnCmdArgs [] = return ([], emptyFVs)
 rnCmdArgs (arg:args)
   = rnCmdTop arg       `thenM` \ (arg',fvArg) ->
     rnCmdArgs args     `thenM` \ (args',fvArgs) ->
-    returnM (arg':args', fvArg `plusFV` fvArgs)
+    return (arg':args', fvArg `plusFV` fvArgs)
 
 rnCmdTop :: LHsCmdTop RdrName -> RnM (LHsCmdTop Name, FreeVars)
 rnCmdTop = wrapLocFstM rnCmdTop'
@@ -372,7 +387,7 @@ rnCmdTop = wrapLocFstM rnCmdTop'
        -- Generate the rebindable syntax for the monad
      lookupSyntaxTable cmd_names       `thenM` \ (cmd_names', cmd_fvs) ->
 
-     returnM (HsCmdTop cmd' [] placeHolderType cmd_names', 
+     return (HsCmdTop cmd' [] placeHolderType cmd_names', 
             fvCmd `plusFV` cmd_fvs)
 
 ---------------------------------------------------
@@ -523,23 +538,23 @@ methodNamesStmt (GroupStmt _ _) = emptyFVs
 rnArithSeq :: ArithSeqInfo RdrName -> RnM (ArithSeqInfo Name, FreeVars)
 rnArithSeq (From expr)
  = rnLExpr expr        `thenM` \ (expr', fvExpr) ->
-   returnM (From expr', fvExpr)
+   return (From expr', fvExpr)
 
 rnArithSeq (FromThen expr1 expr2)
  = rnLExpr expr1       `thenM` \ (expr1', fvExpr1) ->
    rnLExpr expr2       `thenM` \ (expr2', fvExpr2) ->
-   returnM (FromThen expr1' expr2', fvExpr1 `plusFV` fvExpr2)
+   return (FromThen expr1' expr2', fvExpr1 `plusFV` fvExpr2)
 
 rnArithSeq (FromTo expr1 expr2)
  = rnLExpr expr1       `thenM` \ (expr1', fvExpr1) ->
    rnLExpr expr2       `thenM` \ (expr2', fvExpr2) ->
-   returnM (FromTo expr1' expr2', fvExpr1 `plusFV` fvExpr2)
+   return (FromTo expr1' expr2', fvExpr1 `plusFV` fvExpr2)
 
 rnArithSeq (FromThenTo expr1 expr2 expr3)
  = rnLExpr expr1       `thenM` \ (expr1', fvExpr1) ->
    rnLExpr expr2       `thenM` \ (expr2', fvExpr2) ->
    rnLExpr expr3       `thenM` \ (expr3', fvExpr3) ->
-   returnM (FromThenTo expr1' expr2' expr3',
+   return (FromThenTo expr1' expr2' expr3',
            plusFVs [fvExpr1, fvExpr2, fvExpr3])
 \end{code}
 
@@ -556,16 +571,14 @@ rnBracket (VarBr n) = do { name <- lookupOccRn n
                         ; checkM (nameIsLocalOrFrom this_mod name) $   -- Reason: deprecation checking asumes the
                           do { loadInterfaceForName msg name           -- home interface is loaded, and this is the
                              ; return () }                             -- only way that is going to happen
-                        ; returnM (VarBr name, unitFV name) }
+                        ; return (VarBr name, unitFV name) }
                    where
                      msg = ptext (sLit "Need interface for Template Haskell quoted Name")
 
 rnBracket (ExpBr e) = do { (e', fvs) <- rnLExpr e
                         ; return (ExpBr e', fvs) }
 
-rnBracket (PatBr _) = do { addErr (ptext (sLit "Tempate Haskell pattern brackets are not supported yet"));
-                           failM }
-
+rnBracket (PatBr _) = failWith (ptext (sLit "Tempate Haskell pattern brackets are not supported yet"))
 rnBracket (TypBr t) = do { (t', fvs) <- rnHsTypeFVs doc t
                         ; return (TypBr t', fvs) }
                    where
@@ -573,31 +586,15 @@ rnBracket (TypBr t) = do { (t', fvs) <- rnHsTypeFVs doc t
 rnBracket (DecBr group) 
   = do { gbl_env  <- getGblEnv
 
-       ; let new_gbl_env = gbl_env { -- Set the module to thFAKE.  The top-level names from the bracketed 
-                                     -- declarations will go into the name cache, and we don't want them to 
-                                     -- confuse the Names for the current module.  
-                                     -- By using a pretend module, thFAKE, we keep them safely out of the way.
-                                     tcg_mod = thFAKE,
-                        
-                                     -- The emptyDUs is so that we just collect uses for this group alone
-                                     -- in the call to rnSrcDecls below
-                                     tcg_dus = emptyDUs }
-       ; setGblEnv new_gbl_env $ do {
-
-       -- In this situation we want to *shadow* top-level bindings.
-       --      foo = 1
-       --      bar = [d| foo = 1 |]
-       -- If we don't shadow, we'll get an ambiguity complaint when we do 
-       -- a lookupTopBndrRn (which uses lookupGreLocalRn) on the binder of the 'foo'
-       --
-       -- Furthermore, arguably if the splice does define foo, that should hide
-       -- any foo's further out
-       --
-       -- The shadowing is acheived by calling rnSrcDecls with True as the shadowing flag
-       ; (tcg_env, group') <- rnSrcDecls True group       
+       ; let new_gbl_env = gbl_env { tcg_dus = emptyDUs }
+                         -- The emptyDUs is so that we just collect uses for this
+                          -- group alone in the call to rnSrcDecls below
+       ; (tcg_env, group') <- setGblEnv new_gbl_env $ 
+                                     setStage thRnBrack $
+                             rnSrcDecls group      
 
        -- Discard the tcg_env; it contains only extra info about fixity
-       ; return (DecBr group', allUses (tcg_dus tcg_env)) } }
+       ; return (DecBr group', allUses (tcg_dus tcg_env)) }
 \end{code}
 
 %************************************************************************
@@ -797,7 +794,7 @@ rnParallelStmts ctxt segs thing_inside = do
             let (bndrs', dups) = removeDups cmpByOcc bndrs
                 inner_env = extendLocalRdrEnv orig_lcl_env bndrs'
             
-            mappM dupErr dups
+            mapM dupErr dups
             (thing, fvs) <- setLocalRdrEnv inner_env thing_inside
             return (([], thing), fvs)
 
@@ -929,8 +926,7 @@ rn_rec_stmt_lhs fix_env (L loc (BindStmt pat expr a b))
                fv_pat)]
 
 rn_rec_stmt_lhs _ (L _ (LetStmt binds@(HsIPBinds _)))
-  = do { addErr (badIpBinds (ptext (sLit "an mdo expression")) binds)
-       ; failM }
+  = failWith (badIpBinds (ptext (sLit "an mdo expression")) binds)
 
 rn_rec_stmt_lhs fix_env (L loc (LetStmt (HsValBinds binds))) 
     = do binds' <- rnValBindsLHS fix_env binds
@@ -965,7 +961,7 @@ rn_rec_stmts_lhs fix_env stmts =
      -- don't bind all of the variables from the Stmt at once
      -- with bindLocatedLocals.
      checkDupRdrNames doc boundNames
-     mappM (rn_rec_stmt_lhs fix_env) stmts `thenM` \ ls -> returnM (concat ls)
+     mapM (rn_rec_stmt_lhs fix_env) stmts `thenM` \ ls -> return (concat ls)
 
 
 -- right-hand-sides
@@ -977,7 +973,7 @@ rn_rec_stmt :: [Name] -> LStmtLR Name RdrName -> FreeVars -> RnM [Segment (LStmt
 rn_rec_stmt _ (L loc (ExprStmt expr _ _)) _
   = rnLExpr expr `thenM` \ (expr', fvs) ->
     lookupSyntaxName thenMName `thenM` \ (then_op, fvs1) ->
-    returnM [(emptyNameSet, fvs `plusFV` fvs1, emptyNameSet,
+    return [(emptyNameSet, fvs `plusFV` fvs1, emptyNameSet,
              L loc (ExprStmt expr' then_op placeHolderType))]
 
 rn_rec_stmt _ (L loc (BindStmt pat' expr _ _)) fv_pat
@@ -988,18 +984,17 @@ rn_rec_stmt _ (L loc (BindStmt pat' expr _ _)) fv_pat
        bndrs = mkNameSet (collectPatBinders pat')
        fvs   = fv_expr `plusFV` fv_pat `plusFV` fvs1 `plusFV` fvs2
     in
-    returnM [(bndrs, fvs, bndrs `intersectNameSet` fvs,
+    return [(bndrs, fvs, bndrs `intersectNameSet` fvs,
              L loc (BindStmt pat' expr' bind_op fail_op))]
 
 rn_rec_stmt _ (L _ (LetStmt binds@(HsIPBinds _))) _
-  = do { addErr (badIpBinds (ptext (sLit "an mdo expression")) binds)
-       ; failM }
+  = failWith (badIpBinds (ptext (sLit "an mdo expression")) binds)
 
 rn_rec_stmt all_bndrs (L loc (LetStmt (HsValBinds binds'))) _ = do 
   (binds', du_binds) <- 
       -- fixities and unused are handled above in rn_rec_stmts_and_then
-      rnValBindsRHS all_bndrs binds'
-  returnM [(duDefs du_binds, duUses du_binds, 
+      rnValBindsRHS (mkNameSet all_bndrs) binds'
+  return [(duDefs du_binds, duUses du_binds, 
            emptyNameSet, L loc (LetStmt (HsValBinds binds')))]
 
 -- no RecStmt case becuase they get flattened above when doing the LHSes
@@ -1019,8 +1014,8 @@ rn_rec_stmt _ (L _ (LetStmt EmptyLocalBinds)) _
   = panic "rn_rec_stmt: LetStmt EmptyLocalBinds"
 
 rn_rec_stmts :: [Name] -> [(LStmtLR Name RdrName, FreeVars)] -> RnM [Segment (LStmt Name)]
-rn_rec_stmts bndrs stmts = mappM (uncurry (rn_rec_stmt bndrs)) stmts   `thenM` \ segs_s ->
-                          returnM (concat segs_s)
+rn_rec_stmts bndrs stmts = mapM (uncurry (rn_rec_stmt bndrs)) stmts    `thenM` \ segs_s ->
+                          return (concat segs_s)
 
 ---------------------------------------------
 addFwdRefs :: [Segment a] -> [Segment a]
@@ -1131,19 +1126,26 @@ segsToStmts ((defs, uses, fwds, ss) : segs) fvs_later
 
 \begin{code}
 srcSpanPrimLit :: SrcSpan -> HsExpr Name
-srcSpanPrimLit span = HsLit (HsStringPrim (mkFastString (showSDoc (ppr span))))
+srcSpanPrimLit span = HsLit (HsStringPrim (mkFastString (showSDocOneLine (ppr span))))
 
-mkAssertErrorExpr :: RnM (HsExpr Name, FreeVars)
+mkAssertErrorExpr :: RnM (HsExpr Name)
 -- Return an expression for (assertError "Foo.hs:27")
 mkAssertErrorExpr
   = getSrcSpanM                        `thenM` \ sloc ->
-    let
-       expr = HsApp (L sloc (HsVar assertErrorName)) 
-                    (L sloc (srcSpanPrimLit sloc))
-    in
-    returnM (expr, emptyFVs)
+    return (HsApp (L sloc (HsVar assertErrorName)) 
+                 (L sloc (srcSpanPrimLit sloc)))
 \end{code}
 
+Note [Adding the implicit parameter to 'assert']
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+The renamer transforms (assert e1 e2) to (assert "Foo.hs:27" e1 e2).
+By doing this in the renamer we allow the typechecker to just see the
+expanded application and do the right thing. But it's not really 
+the Right Thing because there's no way to "undo" if you want to see
+the original source code.  We'll have fix this in due course, when
+we care more about being able to reconstruct the exact original 
+program.
+
 %************************************************************************
 %*                                                                     *
 \subsubsection{Errors}
@@ -1194,6 +1196,11 @@ checkTransformStmt ctxt = addErr msg
     msg = ptext (sLit "Illegal transform or grouping in") <+> pprStmtContext ctxt
     
 ---------
+sectionErr :: HsExpr RdrName -> SDoc
+sectionErr expr
+  = hang (ptext (sLit "A section must be enclosed in parentheses"))
+       2 (ptext (sLit "thus:") <+> (parens (ppr expr)))
+
 patSynErr :: HsExpr RdrName -> RnM (HsExpr Name, FreeVars)
 patSynErr e = do { addErr (sep [ptext (sLit "Pattern syntax in expression context:"),
                                nest 4 (ppr e)])