X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2Ftypecheck%2FTcMatches.lhs;h=d11cb9754a9b705811d14fa9777b850ea32e7048;hp=485aacb1d21edbbb76307cea10b005ee7410b2fe;hb=6a05ec5ef5373f61b7f9f5bdc344483417fa801b;hpb=b99310f05faee2abec850da4349fcd5c0498f7ca diff --git a/compiler/typecheck/TcMatches.lhs b/compiler/typecheck/TcMatches.lhs index 485aacb..d11cb97 100644 --- a/compiler/typecheck/TcMatches.lhs +++ b/compiler/typecheck/TcMatches.lhs @@ -6,6 +6,13 @@ TcMatches: Typecheck some @Matches@ \begin{code} +{-# OPTIONS -w #-} +-- 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/Commentary/CodingStyle#Warnings +-- for details + module TcMatches ( tcMatchesFun, tcGRHSsPat, tcMatchesCase, tcMatchLambda, matchCtxt, TcMatchCtxt(..), tcStmts, tcDoStmts, tcBody, @@ -48,12 +55,12 @@ is used in error messages. It checks that all the equations have the same number of arguments before using @tcMatches@ to do the work. \begin{code} -tcMatchesFun :: Name +tcMatchesFun :: Name -> Bool -> MatchGroup Name -> BoxyRhoType -- Expected type of function -> TcM (HsWrapper, MatchGroup TcId) -- Returns type of body -tcMatchesFun fun_name matches exp_ty +tcMatchesFun fun_name inf matches exp_ty = do { -- Check that they all have the same no of arguments -- Location is in the monad, set the caller so that -- any inter-equation error messages get some vaguely @@ -76,7 +83,7 @@ tcMatchesFun fun_name matches exp_ty doc = ptext SLIT("The equation(s) for") <+> quotes (ppr fun_name) <+> ptext SLIT("have") <+> speakNOf n_pats (ptext SLIT("argument")) n_pats = matchGroupArity matches - match_ctxt = MC { mc_what = FunRhs fun_name, mc_body = tcBody } + match_ctxt = MC { mc_what = FunRhs fun_name inf, mc_body = tcBody } \end{code} @tcMatchesCase@ doesn't do the argument-count check because the @@ -99,7 +106,7 @@ tcMatchLambda match res_ty where n_pats = matchGroupArity match doc = sep [ ptext SLIT("The lambda expression") - <+> quotes (pprSetDepth 1 $ pprMatches LambdaExpr match), + <+> quotes (pprSetDepth 1 $ pprMatches (LambdaExpr :: HsMatchContext Name) match), -- The pprSetDepth makes the abstraction print briefly ptext SLIT("has") <+> speakNOf n_pats (ptext SLIT("argument"))] match_ctxt = MC { mc_what = LambdaExpr, @@ -215,29 +222,31 @@ tcDoStmts :: HsStmtContext Name -> BoxyRhoType -> TcM (HsExpr TcId) -- Returns a HsDo tcDoStmts ListComp stmts body res_ty - = do { elt_ty <- boxySplitListTy res_ty + = do { (elt_ty, coi) <- boxySplitListTy res_ty ; (stmts', body') <- tcStmts ListComp (tcLcStmt listTyCon) stmts (emptyRefinement,elt_ty) $ tcBody body - ; return (HsDo ListComp stmts' body' (mkListTy elt_ty)) } + ; return $ mkHsWrapCoI coi + (HsDo ListComp stmts' body' (mkListTy elt_ty)) } tcDoStmts PArrComp stmts body res_ty - = do { [elt_ty] <- boxySplitTyConApp parrTyCon res_ty + = do { (elt_ty, coi) <- boxySplitPArrTy res_ty ; (stmts', body') <- tcStmts PArrComp (tcLcStmt parrTyCon) stmts (emptyRefinement, elt_ty) $ tcBody body - ; return (HsDo PArrComp stmts' body' (mkPArrTy elt_ty)) } + ; return $ mkHsWrapCoI coi + (HsDo PArrComp stmts' body' (mkPArrTy elt_ty)) } tcDoStmts DoExpr stmts body res_ty - = do { (m_ty, elt_ty) <- boxySplitAppTy res_ty + = do { ((m_ty, elt_ty), coi) <- boxySplitAppTy res_ty ; let res_ty' = mkAppTy m_ty elt_ty -- The boxySplit consumes res_ty ; (stmts', body') <- tcStmts DoExpr (tcDoStmt m_ty) stmts (emptyRefinement, res_ty') $ tcBody body - ; return (HsDo DoExpr stmts' body' res_ty') } + ; return $ mkHsWrapCoI coi (HsDo DoExpr stmts' body' res_ty') } tcDoStmts ctxt@(MDoExpr _) stmts body res_ty - = do { (m_ty, elt_ty) <- boxySplitAppTy res_ty + = do { ((m_ty, elt_ty), coi) <- boxySplitAppTy res_ty ; let res_ty' = mkAppTy m_ty elt_ty -- The boxySplit consumes res_ty tc_rhs rhs = withBox liftedTypeKind $ \ pat_ty -> tcMonoExpr rhs (mkAppTy m_ty pat_ty) @@ -248,7 +257,9 @@ tcDoStmts ctxt@(MDoExpr _) stmts body res_ty ; let names = [mfixName, bindMName, thenMName, returnMName, failMName] ; insts <- mapM (newMethodFromName DoOrigin m_ty) names - ; return (HsDo (MDoExpr (names `zip` insts)) stmts' body' res_ty') } + ; return $ + mkHsWrapCoI coi + (HsDo (MDoExpr (names `zip` insts)) stmts' body' res_ty') } tcDoStmts ctxt stmts body res_ty = pprPanic "tcDoStmts" (pprStmtContext ctxt)