X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Fcompiler%2Ftypecheck%2FTcDeriv.lhs;h=435316bbf10ac0c6c7ef36dee5997c19c818066a;hb=4e84be0ce335385e094ba12d284855b510a36f53;hp=e54b7af5be6ff1ab6140edeaabe66b65248f61b3;hpb=0aad9d2d701ea5d4b1b8c6b827172bd2bb5fc65f;p=ghc-hetmet.git diff --git a/ghc/compiler/typecheck/TcDeriv.lhs b/ghc/compiler/typecheck/TcDeriv.lhs index e54b7af..435316b 100644 --- a/ghc/compiler/typecheck/TcDeriv.lhs +++ b/ghc/compiler/typecheck/TcDeriv.lhs @@ -1,74 +1,60 @@ % -% (c) The GRASP/AQUA Project, Glasgow University, 1992-1996 +% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998 % \section[TcDeriv]{Deriving} Handles @deriving@ clauses on @data@ declarations. \begin{code} -#include "HsVersions.h" - module TcDeriv ( tcDeriving ) where -IMP_Ubiq() +#include "HsVersions.h" -import HsSyn ( HsDecl, FixityDecl, Fixity, InstDecl, - Sig, HsBinds(..), MonoBinds(..), - GRHSsAndBinds, Match, HsExpr, HsLit, InPat, - ArithSeqInfo, Fake, HsType, - collectMonoBinders +import HsSyn ( HsBinds(..), MonoBinds(..), TyClDecl(..), + collectMonoBinders ) +import RdrHsSyn ( RdrNameMonoBinds ) +import RnHsSyn ( RenamedHsBinds, RenamedMonoBinds, RenamedTyClDecl, RenamedHsPred ) +import CmdLineOpts ( DynFlag(..) ) + +import TcRnMonad +import TcEnv ( tcGetInstEnv, tcSetInstEnv, newDFunName, + InstInfo(..), pprInstInfo, InstBindings(..), + pprInstInfoDetails, tcLookupTyCon, tcExtendTyVarEnv ) -import HsPragmas ( InstancePragmas(..) ) -import RdrHsSyn ( RdrName, SYN_IE(RdrNameMonoBinds) ) -import RnHsSyn ( SYN_IE(RenamedHsBinds), SYN_IE(RenamedMonoBinds), SYN_IE(RenamedFixityDecl) ) -import TcHsSyn ( TcIdOcc ) - -import TcMonad -import Inst ( SYN_IE(InstanceMapper) ) -import TcEnv ( getEnv_TyCons, tcLookupClassByKey ) -import SpecEnv ( SpecEnv ) -import TcKind ( TcKind ) import TcGenDeriv -- Deriv stuff -import TcInstUtil ( InstInfo(..), mkInstanceRelatedIds, buildInstanceEnvs ) -import TcSimplify ( tcSimplifyThetas ) +import InstEnv ( InstEnv, simpleDFunClassTyCon, extendInstEnv ) +import TcMonoType ( tcHsPred ) +import TcSimplify ( tcSimplifyDeriv ) import RnBinds ( rnMethodBinds, rnTopMonoBinds ) -import RnEnv ( newDfunName, bindLocatedLocalsRn ) -import RnMonad ( SYN_IE(RnM), RnDown, GDown, SDown, RnNameSupply(..), - setNameSupplyRn, renameSourceCode, thenRn, mapRn, returnRn ) - -import Bag ( Bag, isEmptyBag, unionBags, listToBag ) -import Class ( classKey, GenClass, SYN_IE(Class) ) -import ErrUtils ( pprBagOfErrors, addErrLoc, SYN_IE(Error) ) -import Id ( dataConArgTys, isNullaryDataCon, mkDictFunId ) -import PrelInfo ( needsDataDeclCtxtClassKeys ) -import Maybes ( maybeToBool ) -import Name ( isLocallyDefined, getSrcLoc, ExportFlag(..), Provenance, - Name{--O only-}, SYN_IE(Module) - ) -import Outputable ( PprStyle(..), Outputable(..){-instances e.g., (,)-} ) -import PprType ( GenType, GenTyVar, GenClass, TyCon ) -import Pretty ( ($$), vcat, hsep, hcat, - ptext, text, char, hang, Doc ) -import SrcLoc ( mkGeneratedSrcLoc, SrcLoc ) -import TyCon ( tyConTyVars, tyConDataCons, tyConDerivings, - tyConTheta, maybeTyConSingleCon, - isEnumerationTyCon, isAlgTyCon, TyCon - ) -import Type ( GenType(..), SYN_IE(TauType), mkTyVarTys, applyTyCon, - mkSigmaTy, mkDictTy, isPrimType, instantiateTy, - getAppDataTyCon, getAppTyCon - ) -import TysPrim ( voidTy ) -import TyVar ( GenTyVar, SYN_IE(TyVar) ) -import UniqFM ( emptyUFM ) -import Unique -- Keys stuff -import Bag ( bagToList ) -import Util ( zipWithEqual, zipEqual, sortLt, removeDups, assoc, - thenCmp, cmpList, panic, panic#, pprPanic, pprPanic#, - Ord3(..), assertPanic-- , pprTrace{-ToDo:rm-} - +import RnEnv ( bindLocalsFVRn ) +import TcRnMonad ( thenM, returnM, mapAndUnzipM ) +import HscTypes ( DFunId ) + +import BasicTypes ( NewOrData(..) ) +import Class ( className, classKey, classTyVars, classSCTheta, Class ) +import Subst ( mkTyVarSubst, substTheta ) +import ErrUtils ( dumpIfSet_dyn ) +import MkId ( mkDictFunId ) +import DataCon ( dataConRepArgTys, dataConOrigArgTys, isNullaryDataCon, isExistentialDataCon ) +import Maybes ( maybeToBool, catMaybes ) +import Name ( Name, getSrcLoc, nameUnique ) +import NameSet +import RdrName ( RdrName ) + +import TyCon ( tyConTyVars, tyConDataCons, tyConArity, + tyConTheta, maybeTyConSingleCon, isDataTyCon, + isEnumerationTyCon, isRecursiveTyCon, TyCon ) +import TcType ( TcType, ThetaType, mkTyVarTys, mkTyConApp, getClassPredTys_maybe, + isUnLiftedType, mkClassPred, tyVarsOfTypes, tcSplitFunTys, + tcEqTypes, tcSplitAppTys, mkAppTys ) +import Var ( TyVar, tyVarKind ) +import VarSet ( mkVarSet, subVarSet ) +import PrelNames +import Util ( zipWithEqual, sortLt, notNull ) +import ListSetOps ( removeDups, assoc ) +import Outputable \end{code} %************************************************************************ @@ -156,19 +142,20 @@ this by simplifying the RHS to a form in which So, here are the synonyms for the ``equation'' structures: \begin{code} -type DerivEqn = (Class, TyCon, [TyVar], DerivRhs) - -- The tyvars bind all the variables in the RHS - -- NEW: it's convenient to re-use InstInfo - -- We'll "panic" out some fields... +type DerivEqn = (Name, Class, TyCon, [TyVar], DerivRhs) + -- The Name is the name for the DFun we'll build + -- The tyvars bind all the variables in the RHS -type DerivRhs = [(Class, TauType)] -- Same as a ThetaType! +pprDerivEqn (n,c,tc,tvs,rhs) + = parens (hsep [ppr n, ppr c, ppr tc, ppr tvs] <+> equals <+> ppr rhs) +type DerivRhs = ThetaType type DerivSoln = DerivRhs \end{code} -A note about contexts on data decls -~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ +[Data decl contexts] A note about contexts on data decls +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Consider data (RealFloat a) => Complex a = !a :+ !a deriving( Read ) @@ -190,6 +177,12 @@ context to the instance decl. The "offending classes" are Read, Enum? +FURTHER NOTE ADDED March 2002. In fact, Haskell98 now requires that +pattern matching against a constructor from a data type with a context +gives rise to the constraints for that context -- or at least the thinned +version. So now all classes are "offending". + + %************************************************************************ %* * @@ -198,73 +191,92 @@ context to the instance decl. The "offending classes" are %************************************************************************ \begin{code} -tcDeriving :: Module -- name of module under scrutiny - -> RnNameSupply -- for "renaming" bits of generated code - -> Bag InstInfo -- What we already know about instances - -> TcM s (Bag InstInfo, -- The generated "instance decls". - RenamedHsBinds, -- Extra generated bindings - PprStyle -> Doc) -- Printable derived instance decls; - -- for debugging via -ddump-derivings. - -tcDeriving modname rn_name_supply inst_decl_infos_in - = -- Fish the "deriving"-related information out of the TcEnv +tcDeriving :: [RenamedTyClDecl] -- All type constructors + -> TcM ([InstInfo], -- The generated "instance decls". + RenamedHsBinds, -- Extra generated bindings + FreeVars) -- These are free in the generated bindings + +tcDeriving tycl_decls + = recoverM (returnM ([], EmptyBinds, emptyFVs)) $ + getDOpts `thenM` \ dflags -> + tcGetInstEnv `thenM` \ inst_env -> + + -- Fish the "deriving"-related information out of the TcEnv -- and make the necessary "equations". - makeDerivEqns `thenTc` \ eqns -> + makeDerivEqns tycl_decls `thenM` \ (ordinary_eqns, newtype_inst_info) -> + let + -- Add the newtype-derived instances to the inst env + -- before tacking the "ordinary" ones + inst_env1 = extend_inst_env dflags inst_env + (map iDFunId newtype_inst_info) + in + deriveOrdinaryStuff inst_env1 ordinary_eqns `thenM` \ (ordinary_inst_info, binds, fvs) -> + let + inst_info = newtype_inst_info ++ ordinary_inst_info + in + + ioToTcRn (dumpIfSet_dyn dflags Opt_D_dump_deriv "Derived instances" + (ddump_deriving inst_info binds)) `thenM_` + + returnM (inst_info, binds, fvs) + + where + ddump_deriving :: [InstInfo] -> RenamedHsBinds -> SDoc + ddump_deriving inst_infos extra_binds + = vcat (map ppr_info inst_infos) $$ ppr extra_binds - -- Take the equation list and solve it, to deliver a list of + ppr_info inst_info = pprInstInfo inst_info $$ + nest 4 (pprInstInfoDetails inst_info) + -- pprInstInfo doesn't print much: only the type + +----------------------------------------- +deriveOrdinaryStuff inst_env_in [] -- Short cut + = returnM ([], EmptyBinds, emptyFVs) + +deriveOrdinaryStuff inst_env_in eqns + = -- Take the equation list and solve it, to deliver a list of -- solutions, a.k.a. the contexts for the instance decls -- required for the corresponding equations. - solveDerivEqns inst_decl_infos_in eqns `thenTc` \ new_inst_infos -> + solveDerivEqns inst_env_in eqns `thenM` \ new_dfuns -> -- Now augment the InstInfos, adding in the rather boring -- actual-code-to-do-the-methods binds. We may also need to -- generate extra not-one-inst-decl-specific binds, notably -- "con2tag" and/or "tag2con" functions. We do these -- separately. - - gen_taggery_Names new_inst_infos `thenTc` \ nm_alist_etc -> - + gen_taggery_Names new_dfuns `thenM` \ nm_alist_etc -> let extra_mbind_list = map gen_tag_n_con_monobind nm_alist_etc extra_mbinds = foldr AndMonoBinds EmptyMonoBinds extra_mbind_list - method_binds_s = map gen_bind new_inst_infos - mbinders = bagToList (collectMonoBinders extra_mbinds) + mbinders = collectMonoBinders extra_mbinds + in + mappM gen_bind new_dfuns `thenM` \ method_binds_s -> + traceTc (text "tcDeriv" <+> ppr method_binds_s) `thenM_` + getModule `thenM` \ this_mod -> + initRn (InterfaceMode this_mod) ( -- Rename to get RenamedBinds. - -- The only tricky bit is that the extra_binds must scope over the - -- method bindings for the instances. - (dfun_names_w_method_binds, rn_extra_binds) - = renameSourceCode modname rn_name_supply ( - bindLocatedLocalsRn (\_ -> text "deriving") mbinders $ \ _ -> - rnTopMonoBinds extra_mbinds [] `thenRn` \ rn_extra_binds -> - mapRn rn_one method_binds_s `thenRn` \ dfun_names_w_method_binds -> - returnRn (dfun_names_w_method_binds, rn_extra_binds) - ) - rn_one meth_binds = newDfunName Nothing mkGeneratedSrcLoc `thenRn` \ dfun_name -> - rnMethodBinds meth_binds `thenRn` \ rn_meth_binds -> - returnRn (dfun_name, rn_meth_binds) - in - - mapTc (gen_inst_info modname) - (new_inst_infos `zip` dfun_names_w_method_binds) `thenTc` \ really_new_inst_infos -> + -- The only tricky bit is that the extra_binds must scope + -- over the method bindings for the instances. + bindLocalsFVRn (ptext (SLIT("deriving"))) mbinders $ \ _ -> + rnTopMonoBinds extra_mbinds [] `thenM` \ (rn_extra_binds, fvs) -> + mapAndUnzipM rn_meths method_binds_s `thenM` \ (rn_method_binds_s, fvs_s) -> + returnM ((rn_method_binds_s, rn_extra_binds), + fvs `plusFV` plusFVs fvs_s) + ) `thenM` \ ((rn_method_binds_s, rn_extra_binds), fvs) -> let - ddump_deriv = ddump_deriving really_new_inst_infos rn_extra_binds + new_inst_infos = zipWith gen_inst_info new_dfuns rn_method_binds_s in - --pprTrace "derived:\n" (ddump_deriv PprDebug) $ + returnM (new_inst_infos, rn_extra_binds, fvs) - returnTc (listToBag really_new_inst_infos, - rn_extra_binds, - ddump_deriv) where - ddump_deriving :: [InstInfo] -> RenamedHsBinds -> (PprStyle -> Doc) + -- Make a Real dfun instead of the dummy one we have so far + gen_inst_info :: DFunId -> RenamedMonoBinds -> InstInfo + gen_inst_info dfun binds + = InstInfo { iDFunId = dfun, iBinds = VanillaInst binds [] } - ddump_deriving inst_infos extra_binds sty - = vcat ((map pp_info inst_infos) ++ [ppr sty extra_binds]) - where - pp_info (InstInfo clas tvs ty inst_decl_theta _ _ mbinds _ _) - = ($$) (ppr sty (mkSigmaTy tvs inst_decl_theta (mkDictTy clas ty))) - (ppr sty mbinds) + rn_meths (cls, meths) = rnMethodBinds cls [] meths \end{code} @@ -290,107 +302,217 @@ or} has just one data constructor (e.g., tuples). all those. \begin{code} -makeDerivEqns :: TcM s [DerivEqn] +makeDerivEqns :: [RenamedTyClDecl] + -> TcM ([DerivEqn], -- Ordinary derivings + [InstInfo]) -- Special newtype derivings -makeDerivEqns - = tcGetEnv `thenNF_Tc` \ env -> - let - local_data_tycons = filter (\tc -> isLocallyDefined tc && isAlgTyCon tc) - (getEnv_TyCons env) - in - if null local_data_tycons then - -- Bale out now; evalClass may not be loaded if there aren't any - returnTc [] - else - tcLookupClassByKey evalClassKey `thenNF_Tc` \ eval_clas -> - let - think_about_deriving = need_deriving eval_clas local_data_tycons - (derive_these, _) = removeDups cmp_deriv think_about_deriving - eqns = map mk_eqn derive_these - in - mapTc chk_out think_about_deriving `thenTc_` - returnTc eqns +makeDerivEqns tycl_decls + = mapAndUnzipM mk_eqn derive_these `thenM` \ (maybe_ordinaries, maybe_newtypes) -> + returnM (catMaybes maybe_ordinaries, catMaybes maybe_newtypes) where ------------------------------------------------------------------ - need_deriving :: Class -> [TyCon] -> [(Class, TyCon)] - -- find the tycons that have `deriving' clauses; - -- we handle the "every datatype in Eval" by - -- doing a dummy "deriving" for it. - - need_deriving eval_clas tycons_to_consider - = foldr ( \ tycon acc -> - let - acc_plus = if isLocallyDefined tycon - then (eval_clas, tycon) : acc - else acc - in - case (tyConDerivings tycon) of - [] -> acc_plus - cs -> [ (clas,tycon) | clas <- cs ] ++ acc_plus - ) - [] - tycons_to_consider + derive_these :: [(NewOrData, Name, RenamedHsPred)] + -- Find the (nd, TyCon, Pred) pairs that must be `derived' + -- NB: only source-language decls have deriving, no imported ones do + derive_these = [ (nd, tycon, pred) + | TyData {tcdND = nd, tcdName = tycon, tcdDerivs = Just preds} <- tycl_decls, + pred <- preds ] ------------------------------------------------------------------ - chk_out :: (Class, TyCon) -> TcM s () - chk_out this_one@(clas, tycon) - = let - clas_key = classKey clas - - is_enumeration = isEnumerationTyCon tycon - is_single_con = maybeToBool (maybeTyConSingleCon tycon) - - chk_clas clas_uniq clas_str cond - = if (clas_uniq == clas_key) - then checkTc cond (derivingThingErr clas_str tycon) - else returnTc () - in - -- Are things OK for deriving Enum (if appropriate)? - chk_clas enumClassKey "Enum" is_enumeration `thenTc_` - - -- Are things OK for deriving Bounded (if appropriate)? - chk_clas boundedClassKey "Bounded" - (is_enumeration || is_single_con) `thenTc_` - - -- Are things OK for deriving Ix (if appropriate)? - chk_clas ixClassKey "Ix.Ix" (is_enumeration || is_single_con) + mk_eqn :: (NewOrData, Name, RenamedHsPred) -> TcM (Maybe DerivEqn, Maybe InstInfo) + -- We swizzle the tyvars and datacons out of the tycon + -- to make the rest of the equation - ------------------------------------------------------------------ - cmp_deriv :: (Class, TyCon) -> (Class, TyCon) -> TAG_ - cmp_deriv (c1, t1) (c2, t2) - = (c1 `cmp` c2) `thenCmp` (t1 `cmp` t2) + mk_eqn (new_or_data, tycon_name, pred) + = tcLookupTyCon tycon_name `thenM` \ tycon -> + addSrcLoc (getSrcLoc tycon) $ + addErrCtxt (derivCtxt Nothing tycon) $ + tcExtendTyVarEnv (tyConTyVars tycon) $ -- Deriving preds may (now) mention + -- the type variables for the type constructor + tcHsPred pred `thenM` \ pred' -> + case getClassPredTys_maybe pred' of + Nothing -> bale_out (malformedPredErr tycon pred) + Just (clas, tys) -> mk_eqn_help new_or_data tycon clas tys ------------------------------------------------------------------ - mk_eqn :: (Class, TyCon) -> DerivEqn - -- we swizzle the tyvars and datacons out of the tycon - -- to make the rest of the equation - - mk_eqn (clas, tycon) - = (clas, tycon, tyvars, if_not_Eval constraints) + mk_eqn_help DataType tycon clas tys + | Just err <- chk_out clas tycon tys + = bale_out (derivingThingErr clas tys tycon tyvars err) + | otherwise + = new_dfun_name clas tycon `thenM` \ dfun_name -> + returnM (Just (dfun_name, clas, tycon, tyvars, constraints), Nothing) where - clas_key = classKey clas - tyvars = tyConTyVars tycon -- ToDo: Do we need new tyvars ??? - tyvar_tys = mkTyVarTys tyvars + tyvars = tyConTyVars tycon data_cons = tyConDataCons tycon + constraints = extra_constraints ++ + [ mkClassPred clas [arg_ty] + | data_con <- tyConDataCons tycon, + arg_ty <- dataConRepArgTys data_con, -- dataConOrigArgTys??? + -- Use the same type variables + -- as the type constructor, + -- hence no need to instantiate + not (isUnLiftedType arg_ty) -- No constraints for unlifted types? + ] + + -- "extra_constraints": see note [Data decl contexts] above + extra_constraints = tyConTheta tycon + + mk_eqn_help NewType tycon clas tys + = doptM Opt_GlasgowExts `thenM` \ gla_exts -> + if can_derive_via_isomorphism && (gla_exts || standard_instance) then + -- Go ahead and use the isomorphism + traceTc (text "newtype deriving:" <+> ppr tycon <+> ppr rep_tys) `thenM_` + new_dfun_name clas tycon `thenM` \ dfun_name -> + returnM (Nothing, Just (InstInfo { iDFunId = mk_dfun dfun_name, + iBinds = NewTypeDerived rep_tys })) + else + if standard_instance then + mk_eqn_help DataType tycon clas [] -- Go via bale-out route + else + bale_out cant_derive_err + where + -- Here is the plan for newtype derivings. We see + -- newtype T a1...an = T (t ak...an) deriving (.., C s1 .. sm, ...) + -- where aj...an do not occur free in t, and the (C s1 ... sm) is a + -- *partial applications* of class C with the last parameter missing + -- + -- We generate the instances + -- instance C s1 .. sm (t ak...aj) => C s1 .. sm (T a1...aj) + -- where T a1...aj is the partial application of the LHS of the correct kind + -- + -- Running example: newtype T s a = MkT (ST s a) deriving( Monad ) + -- instance Monad (ST s) => Monad (T s) where + -- fail = coerce ... (fail @ ST s) + + clas_tyvars = classTyVars clas + kind = tyVarKind (last clas_tyvars) + -- Kind of the thing we want to instance + -- e.g. argument kind of Monad, *->* + + (arg_kinds, _) = tcSplitFunTys kind + n_args_to_drop = length arg_kinds + -- Want to drop 1 arg from (T s a) and (ST s a) + -- to get instance Monad (ST s) => Monad (T s) + + -- Note [newtype representation] + -- We must not use newTyConRep to get the representation + -- type, because that looks through all intermediate newtypes + -- To get the RHS of *this* newtype, just look at the data + -- constructor. For example + -- newtype B = MkB Int + -- newtype A = MkA B deriving( Num ) + -- We want the Num instance of B, *not* the Num instance of Int, + -- when making the Num instance of A! + tyvars = tyConTyVars tycon + rep_ty = head (dataConOrigArgTys (head (tyConDataCons tycon))) + (rep_fn, rep_ty_args) = tcSplitAppTys rep_ty + + n_tyvars_to_keep = tyConArity tycon - n_args_to_drop + tyvars_to_drop = drop n_tyvars_to_keep tyvars + tyvars_to_keep = take n_tyvars_to_keep tyvars + + n_args_to_keep = length rep_ty_args - n_args_to_drop + args_to_drop = drop n_args_to_keep rep_ty_args + args_to_keep = take n_args_to_keep rep_ty_args + + rep_tys = tys ++ [mkAppTys rep_fn args_to_keep] + rep_pred = mkClassPred clas rep_tys + -- rep_pred is the representation dictionary, from where + -- we are gong to get all the methods for the newtype dictionary + + inst_tys = (tys ++ [mkTyConApp tycon (mkTyVarTys tyvars_to_keep)]) + -- The 'tys' here come from the partial application + -- in the deriving clause. The last arg is the new + -- instance type. + + -- We must pass the superclasses; the newtype might be an instance + -- of them in a different way than the representation type + -- E.g. newtype Foo a = Foo a deriving( Show, Num, Eq ) + -- Then the Show instance is not done via isomprphism; it shows + -- Foo 3 as "Foo 3" + -- The Num instance is derived via isomorphism, but the Show superclass + -- dictionary must the Show instance for Foo, *not* the Show dictionary + -- gotten from the Num dictionary. So we must build a whole new dictionary + -- not just use the Num one. The instance we want is something like: + -- instance (Num a, Show (Foo a), Eq (Foo a)) => Num (Foo a) where + -- (+) = ((+)@a) + -- ...etc... + -- There's no 'corece' needed because after the type checker newtypes + -- are transparent. + + sc_theta = substTheta (mkTyVarSubst clas_tyvars inst_tys) + (classSCTheta clas) + + -- If there are no tyvars, there's no need + -- to abstract over the dictionaries we need + dict_args | null tyvars = [] + | otherwise = rep_pred : sc_theta + + -- Finally! Here's where we build the dictionary Id + mk_dfun dfun_name = mkDictFunId dfun_name tyvars dict_args clas inst_tys + + ------------------------------------------------------------------- + -- Figuring out whether we can only do this newtype-deriving thing + + standard_instance = null tys && classKey clas `elem` derivableClassKeys + + can_derive_via_isomorphism + = not (clas `hasKey` readClassKey) -- Never derive Read,Show this way + && not (clas `hasKey` showClassKey) + && n_tyvars_to_keep >= 0 -- Well kinded; + -- eg not: newtype T = T Int deriving( Monad ) + && n_args_to_keep >= 0 -- Well kinded: + -- eg not: newtype T a = T Int deriving( Monad ) + && eta_ok -- Eta reduction works + && not (isRecursiveTyCon tycon) -- Does not work for recursive tycons: + -- newtype A = MkA [A] + -- Don't want + -- instance Eq [A] => Eq A !! + + -- Check that eta reduction is OK + -- (a) the dropped-off args are identical + -- (b) the remaining type args mention + -- only the remaining type variables + eta_ok = (args_to_drop `tcEqTypes` mkTyVarTys tyvars_to_drop) + && (tyVarsOfTypes args_to_keep `subVarSet` mkVarSet tyvars_to_keep) + + cant_derive_err = derivingThingErr clas tys tycon tyvars_to_keep + (vcat [ptext SLIT("too hard for cunning newtype deriving"), + ppr n_tyvars_to_keep, + ppr n_args_to_keep, + ppr eta_ok, + ppr (isRecursiveTyCon tycon) + ]) + + bale_out err = addErrTc err `thenM_` returnM (Nothing, Nothing) - if_not_Eval cs = if clas_key == evalClassKey then [] else cs - - constraints = extra_constraints ++ concat (map mk_constraints data_cons) - - -- "extra_constraints": see notes above about contexts on data decls - extra_constraints - | offensive_class = tyConTheta tycon - | otherwise = [] - where - offensive_class = clas_key `elem` needsDataDeclCtxtClassKeys - - mk_constraints data_con - = [ (clas, arg_ty) - | arg_ty <- instd_arg_tys, - not (isPrimType arg_ty) -- No constraints for primitive types - ] - where - instd_arg_tys = dataConArgTys data_con tyvar_tys + ------------------------------------------------------------------ + chk_out :: Class -> TyCon -> [TcType] -> Maybe SDoc + chk_out clas tycon tys + | notNull tys = Just non_std_why + | not (getUnique clas `elem` derivableClassKeys) = Just non_std_why + | clas `hasKey` enumClassKey && not is_enumeration = Just nullary_why + | clas `hasKey` boundedClassKey && not is_enumeration_or_single = Just single_nullary_why + | clas `hasKey` ixClassKey && not is_enumeration_or_single = Just single_nullary_why + | null data_cons = Just no_cons_why + | any isExistentialDataCon data_cons = Just existential_why + | otherwise = Nothing + where + data_cons = tyConDataCons tycon + is_enumeration = isEnumerationTyCon tycon + is_single_con = maybeToBool (maybeTyConSingleCon tycon) + is_enumeration_or_single = is_enumeration || is_single_con + + single_nullary_why = ptext SLIT("one constructor data type or type with all nullary constructors expected") + nullary_why = ptext SLIT("data type with all nullary constructors expected") + no_cons_why = ptext SLIT("type has no data constructors") + non_std_why = ptext SLIT("not a derivable class") + existential_why = ptext SLIT("it has existentially-quantified constructor(s)") + +new_dfun_name clas tycon -- Just a simple wrapper + = newDFunName clas [mkTyConApp tycon []] (getSrcLoc tycon) + -- The type passed to newDFunName is only used to generate + -- a suitable string; hence the empty type arg list \end{code} %************************************************************************ @@ -414,13 +536,13 @@ ordered by sorting on type varible, tv, (major key) and then class, k, \end{itemize} \begin{code} -solveDerivEqns :: Bag InstInfo +solveDerivEqns :: InstEnv -> [DerivEqn] - -> TcM s [InstInfo] -- Solns in same order as eqns. - -- This bunch is Absolutely minimal... + -> TcM [DFunId] -- Solns in same order as eqns. + -- This bunch is Absolutely minimal... -solveDerivEqns inst_decl_infos_in orig_eqns - = iterateDeriv initial_solutions +solveDerivEqns inst_env_in orig_eqns + = iterateDeriv 1 initial_solutions where -- The initial solutions for the equations claim that each -- instance has an empty context; this solution is certainly @@ -428,93 +550,56 @@ solveDerivEqns inst_decl_infos_in orig_eqns initial_solutions :: [DerivSoln] initial_solutions = [ [] | _ <- orig_eqns ] + ------------------------------------------------------------------ -- iterateDeriv calculates the next batch of solutions, -- compares it with the current one; finishes if they are the -- same, otherwise recurses with the new solutions. - - iterateDeriv :: [DerivSoln] ->TcM s [InstInfo] - - iterateDeriv current_solns - = -- Extend the inst info from the explicit instance decls - -- with the current set of solutions, giving a - - add_solns inst_decl_infos_in orig_eqns current_solns - `thenTc` \ (new_inst_infos, inst_mapper) -> - let - class_to_inst_env cls = fst (inst_mapper cls) - in - -- Simplify each RHS - - listTc [ tcSimplifyThetas class_to_inst_env [{-Nothing "given"-}] deriv_rhs - | (_,_,_,deriv_rhs) <- orig_eqns ] `thenTc` \ next_solns -> - - -- Canonicalise the solutions, so they compare nicely - let canonicalised_next_solns - = [ sortLt lt_rhs next_soln | next_soln <- next_solns ] in - - if (current_solns `eq_solns` canonicalised_next_solns) then - returnTc new_inst_infos + -- It fails if any iteration fails + iterateDeriv :: Int -> [DerivSoln] ->TcM [DFunId] + iterateDeriv n current_solns + | n > 20 -- Looks as if we are in an infinite loop + -- This can happen if we have -fallow-undecidable-instances + -- (See TcSimplify.tcSimplifyDeriv.) + = pprPanic "solveDerivEqns: probable loop" + (vcat (map pprDerivEqn orig_eqns) $$ ppr current_solns) + | otherwise + = getDOpts `thenM` \ dflags -> + let + dfuns = zipWithEqual "add_solns" mk_deriv_dfun orig_eqns current_solns + inst_env = extend_inst_env dflags inst_env_in dfuns + in + checkNoErrs ( + -- Extend the inst info from the explicit instance decls + -- with the current set of solutions, and simplify each RHS + tcSetInstEnv inst_env $ + mappM gen_soln orig_eqns + ) `thenM` \ new_solns -> + if (current_solns == new_solns) then + returnM dfuns else - iterateDeriv canonicalised_next_solns + iterateDeriv (n+1) new_solns - where - ------------------------------------------------------------------ - lt_rhs r1 r2 = case cmp_rhs r1 r2 of { LT_ -> True; _ -> False } - eq_solns s1 s2 = case cmp_solns s1 s2 of { EQ_ -> True; _ -> False } - cmp_solns s1 s2 = cmpList (cmpList cmp_rhs) s1 s2 - cmp_rhs (c1, TyVarTy tv1) (c2, TyVarTy tv2) - = (tv1 `cmp` tv2) `thenCmp` (c1 `cmp` c2) -#ifdef DEBUG - cmp_rhs other_1 other_2 - = panic# "tcDeriv:cmp_rhs:" --(hsep [ppr PprDebug other_1, ppr PprDebug other_2]) -#endif + ------------------------------------------------------------------ + gen_soln (_, clas, tc,tyvars,deriv_rhs) + = addSrcLoc (getSrcLoc tc) $ + addErrCtxt (derivCtxt (Just clas) tc) $ + tcSimplifyDeriv tyvars deriv_rhs `thenM` \ theta -> + returnM (sortLt (<) theta) -- Canonicalise before returning the soluction \end{code} \begin{code} -add_solns :: Bag InstInfo -- The global, non-derived ones - -> [DerivEqn] -> [DerivSoln] - -> TcM s ([InstInfo], -- The new, derived ones - InstanceMapper) - -- the eqns and solns move "in lockstep"; we have the eqns - -- because we need the LHS info for addClassInstance. - -add_solns inst_infos_in eqns solns - = buildInstanceEnvs all_inst_infos `thenTc` \ inst_mapper -> - returnTc (new_inst_infos, inst_mapper) +extend_inst_env dflags inst_env new_dfuns + = new_inst_env where - new_inst_infos = zipWithEqual "add_solns" mk_deriv_inst_info eqns solns - - all_inst_infos = inst_infos_in `unionBags` listToBag new_inst_infos - - mk_deriv_inst_info (clas, tycon, tyvars, _) theta - = InstInfo clas tyvars (applyTyCon tycon (mkTyVarTys tyvars)) - theta - (my_panic "dfun_theta") - - dummy_dfun_id - - (my_panic "binds") (getSrcLoc tycon) - (my_panic "upragmas") - where - dummy_dfun_id - = mkDictFunId bottom dummy_dfun_ty bottom bottom - where - bottom = panic "dummy_dfun_id" - - dummy_dfun_ty = mkSigmaTy tyvars theta voidTy - -- All we need from the dfun is its "theta" part, used during - -- equation simplification (tcSimplifyThetas). The final - -- dfun_id will have the superclass dictionaries as arguments too, - -- but that'll be added after the equations are solved. For now, - -- it's enough just to make a dummy dfun with the simple theta part. - -- - -- The part after the theta is dummied here as voidTy; actually it's - -- (C (T a b)), but it doesn't seem worth constructing it. - -- We can't leave it as a panic because to get the theta part we - -- have to run down the type! - - my_panic str = panic "add_soln" -- pprPanic ("add_soln:"++str) (hsep [char ':', ppr PprDebug clas, ppr PprDebug tycon]) + (new_inst_env, _errs) = extendInstEnv dflags inst_env new_dfuns + -- Ignore the errors about duplicate instances. + -- We don't want repeated error messages + -- They'll appear later, when we do the top-level extendInstEnvs + +mk_deriv_dfun (dfun_name, clas, tycon, tyvars, _) theta + = mkDictFunId dfun_name tyvars theta + clas [mkTyConApp tycon (mkTyVarTys tyvars)] \end{code} %************************************************************************ @@ -581,49 +666,28 @@ the renamer. What a great hack! \begin{code} -- Generate the method bindings for the required instance -gen_bind :: InstInfo -> RdrNameMonoBinds -gen_bind (InstInfo clas _ ty _ _ _ _ _ _) - | not from_here - = EmptyMonoBinds - | otherwise - = assoc "gen_inst_info:bad derived class" - [(eqClassKey, gen_Eq_binds) - ,(ordClassKey, gen_Ord_binds) - ,(enumClassKey, gen_Enum_binds) - ,(evalClassKey, gen_Eval_binds) - ,(boundedClassKey, gen_Bounded_binds) - ,(showClassKey, gen_Show_binds) - ,(readClassKey, gen_Read_binds) - ,(ixClassKey, gen_Ix_binds) - ] - (classKey clas) - tycon +-- (paired with class name, as we need that when renaming +-- the method binds) +gen_bind :: DFunId -> TcM (Name, RdrNameMonoBinds) +gen_bind dfun + = getFixityEnv `thenM` \ fix_env -> + returnM (cls_nm, gen_binds_fn fix_env cls_nm tycon) where - from_here = isLocallyDefined tycon - (tycon,_,_) = getAppDataTyCon ty - - -gen_inst_info :: Module -- Module name - -> (InstInfo, (Name, RenamedMonoBinds)) -- the main stuff to work on - -> TcM s InstInfo -- the gen'd (filled-in) "instance decl" - -gen_inst_info modname - (InstInfo clas tyvars ty inst_decl_theta _ _ _ locn _, (dfun_name, meth_binds)) - = - -- Generate the various instance-related Ids - mkInstanceRelatedIds - dfun_name - clas tyvars ty - inst_decl_theta - `thenNF_Tc` \ (dfun_id, dfun_theta) -> - - returnTc (InstInfo clas tyvars ty inst_decl_theta - dfun_theta dfun_id - meth_binds - locn []) + cls_nm = className clas + (clas, tycon) = simpleDFunClassTyCon dfun + +gen_binds_fn fix_env cls_nm + = assoc "gen_bind:bad derived class" + gen_list (nameUnique cls_nm) where - from_here = isLocallyDefined tycon - (tycon,_,_) = getAppDataTyCon ty + gen_list = [(eqClassKey, gen_Eq_binds) + ,(ordClassKey, gen_Ord_binds) + ,(enumClassKey, gen_Enum_binds) + ,(boundedClassKey, gen_Bounded_binds) + ,(ixClassKey, gen_Ix_binds) + ,(showClassKey, gen_Show_binds fix_env) + ,(readClassKey, gen_Read_binds fix_env) + ] \end{code} @@ -638,7 +702,7 @@ data Foo ... = ... con2tag_Foo :: Foo ... -> Int# tag2con_Foo :: Int -> Foo ... -- easier if Int, not Int# -maxtag_Foo :: Int -- ditto (NB: not unboxed) +maxtag_Foo :: Int -- ditto (NB: not unlifted) We have a @con2tag@ function for a tycon if: @@ -660,45 +724,43 @@ We're deriving @Enum@, or @Ix@ (enum type only???) If we have a @tag2con@ function, we also generate a @maxtag@ constant. \begin{code} -gen_taggery_Names :: [InstInfo] - -> TcM s [(RdrName, -- for an assoc list - TyCon, -- related tycon - TagThingWanted)] - -gen_taggery_Names inst_infos - = --pprTrace "gen_taggery:\n" (vcat [hsep [ppr PprDebug c, ppr PprDebug t] | (c,t) <- all_CTs]) $ - foldlTc do_con2tag [] tycons_of_interest `thenTc` \ names_so_far -> - foldlTc do_tag2con names_so_far tycons_of_interest +gen_taggery_Names :: [DFunId] + -> TcM [(RdrName, -- for an assoc list + TyCon, -- related tycon + TagThingWanted)] + +gen_taggery_Names dfuns + = foldlM do_con2tag [] tycons_of_interest `thenM` \ names_so_far -> + foldlM do_tag2con names_so_far tycons_of_interest where - all_CTs = [ mk_CT c ty | (InstInfo c _ ty _ _ _ _ _ _) <- inst_infos ] - - mk_CT c ty = (c, fst (getAppTyCon ty)) - - all_tycons = map snd all_CTs - (tycons_of_interest, _) = removeDups cmp all_tycons + all_CTs = map simpleDFunClassTyCon dfuns + all_tycons = map snd all_CTs + (tycons_of_interest, _) = removeDups compare all_tycons do_con2tag acc_Names tycon - = if (we_are_deriving eqClassKey tycon + | isDataTyCon tycon && + ((we_are_deriving eqClassKey tycon && any isNullaryDataCon (tyConDataCons tycon)) - || (we_are_deriving ordClassKey tycon + || (we_are_deriving ordClassKey tycon && not (maybeToBool (maybeTyConSingleCon tycon))) - || (we_are_deriving enumClassKey tycon) - || (we_are_deriving ixClassKey tycon) - then - returnTc ((con2tag_RDR tycon, tycon, GenCon2Tag) + || (we_are_deriving enumClassKey tycon) + || (we_are_deriving ixClassKey tycon)) + + = returnM ((con2tag_RDR tycon, tycon, GenCon2Tag) : acc_Names) - else - returnTc acc_Names + | otherwise + = returnM acc_Names do_tag2con acc_Names tycon - = if (we_are_deriving enumClassKey tycon) - || (we_are_deriving ixClassKey tycon) - then - returnTc ( (tag2con_RDR tycon, tycon, GenTag2Con) - : (maxtag_RDR tycon, tycon, GenMaxTag) - : acc_Names) - else - returnTc acc_Names + | isDataTyCon tycon && + (we_are_deriving enumClassKey tycon || + we_are_deriving ixClassKey tycon + && isEnumerationTyCon tycon) + = returnM ( (tag2con_RDR tycon, tycon, GenTag2Con) + : (maxtag_RDR tycon, tycon, GenMaxTag) + : acc_Names) + | otherwise + = returnM acc_Names we_are_deriving clas_key tycon = is_in_eqns clas_key tycon all_CTs @@ -707,13 +769,23 @@ gen_taggery_Names inst_infos is_in_eqns clas_key tycon ((c,t):cts) = (clas_key == classKey c && tycon == t) || is_in_eqns clas_key tycon cts - \end{code} \begin{code} -derivingThingErr :: String -> TyCon -> Error +derivingThingErr clas tys tycon tyvars why + = sep [hsep [ptext SLIT("Can't make a derived instance of"), quotes (ppr pred)], + parens why] + where + pred = mkClassPred clas (tys ++ [mkTyConApp tycon (mkTyVarTys tyvars)]) + +malformedPredErr tycon pred = ptext SLIT("Illegal deriving item") <+> ppr pred -derivingThingErr thing tycon sty - = hang (hsep [ptext SLIT("Can't make a derived instance of"), text thing]) - 4 (hsep [ptext SLIT("for the type"), ppr sty tycon]) +derivCtxt :: Maybe Class -> TyCon -> SDoc +derivCtxt maybe_cls tycon + = ptext SLIT("When deriving") <+> cls <+> ptext SLIT("for type") <+> quotes (ppr tycon) + where + cls = case maybe_cls of + Nothing -> ptext SLIT("instances") + Just c -> ptext SLIT("the") <+> quotes (ppr c) <+> ptext SLIT("instance") \end{code} +