Handles @deriving@ clauses on @data@ declarations.
-********** Don't forget
-
-Multi-instance checking in renamer should include deriving.
-
\begin{code}
#include "HsVersions.h"
module TcDeriv (
- tcDeriving,
- con2tag_PN, tag2con_PN, maxtag_PN,
- TagThingWanted(..), DerivEqn(..)
+ tcDeriving
) where
-IMPORT_Trace -- ToDo:rm debugging
-import Outputable
-import Pretty
+import Ubiq
+
+import HsSyn ( FixityDecl, Sig, HsBinds(..), Bind(..), MonoBinds(..),
+ GRHSsAndBinds, Match, HsExpr, HsLit, InPat,
+ ArithSeqInfo, Fake, MonoType )
+import HsPragmas ( InstancePragmas(..) )
+import RnHsSyn ( RenamedHsBinds(..), RenamedFixityDecl(..) )
+import TcHsSyn ( TcIdOcc )
+
+import TcMonad
+import Inst ( InstOrigin(..), InstanceMapper(..) )
+import TcEnv ( getEnv_TyCons )
+import TcKind ( TcKind )
+import TcGenDeriv -- Deriv stuff
+import TcInstUtil ( InstInfo(..), mkInstanceRelatedIds, buildInstanceEnvs )
+import TcSimplify ( tcSimplifyThetas )
+
+import RnMonad4
+import RnUtils ( GlobalNameMappers(..), GlobalNameMapper(..) )
+import RnBinds4 ( rnMethodBinds, rnTopBinds )
-import TcMonad -- typechecking monad machinery
-import TcMonadFns ( copyTyVars )
-import AbsSyn -- the stuff being typechecked
-import TcGenDeriv -- support code that generates all the grimy bindings
- -- for derived instance decls.
-
-import AbsPrel ( mkFunTy )
-import AbsUniType
-import UniType ( UniType(..) ) -- *********** CHEATING!!! ****************
-import Bag
-import CE ( CE(..) )
-import CmdLineOpts ( GlobalSwitch(..) )
-import E ( E )
-import Errors
-import HsCore -- ****** NEED TO SEE CONSTRUCTORS ******
-import HsPragmas -- InstancePragmas(..)
-import Id ( getDataConSig, isNullaryDataCon, DataCon(..) )
-import IdInfo
-import Inst ( InstOrigin(..) )
-import InstEnv
+import Bag ( Bag, isEmptyBag, unionBags, listToBag )
+import Class ( GenClass, getClassKey )
+import ErrUtils ( pprBagOfErrors, addErrLoc )
+import Id ( dataConSig, dataConArity )
import Maybes ( assocMaybe, maybeToBool, Maybe(..) )
-import NameTypes ( mkFullName, mkPreludeCoreName,
- Provenance(..), FullName, ShortName
- )
+import Name ( Name(..) )
+import NameTypes ( mkPreludeCoreName, Provenance(..) )
+import Outputable
+import PprType ( GenType, GenTyVar, GenClass, TyCon )
+import PprStyle
+import Pretty
import ProtoName ( eqProtoName, ProtoName(..), Name )
-import RenameAuxFuns -- why not? take all of it...
-import RenameBinds4 ( rnMethodBinds4, rnTopBinds4 )
-import RenameMonad4 -- initRn4, etc.
import SrcLoc ( mkGeneratedSrcLoc, mkUnknownSrcLoc, SrcLoc )
-import TCE -- ( rngTCE, TCE(..), UniqFM )
-import TcInstDcls ( InstInfo(..), buildInstanceEnvs, mkInstanceRelatedIds )
-import TcSimplify ( tcSimplifyThetas )
-import Unique -- *Key stuff
-import Util
+import TyCon ( tyConTyVars, tyConDataCons, tyConDerivings,
+ maybeTyConSingleCon, isEnumerationTyCon, TyCon )
+import Type ( GenType(..), TauType(..), mkTyVarTys, applyTyCon,
+ mkSigmaTy, mkDictTy, isPrimType, instantiateTy,
+ getAppTyCon, getAppDataTyCon )
+import TyVar ( GenTyVar )
+import UniqFM ( eltsUFM )
+import Unique -- Keys stuff
+import Util ( zipWithEqual, zipEqual, sortLt, removeDups,
+ thenCmp, cmpList, panic, pprPanic, pprPanic# )
\end{code}
%************************************************************************
Consider
- data T a b = C1 (Foo a) (Bar b)
- | C2 Int (T b a)
+ data T a b = C1 (Foo a) (Bar b)
+ | C2 Int (T b a)
| C3 (T a a)
deriving (Eq)
u Eq (T a a) -- From C3
After simplification:
- = Eq a u Ping b
+ = Eq a u Ping b
u (Eq b u Ping a)
u (Eq a u Ping a)
-
+
= Eq a u Ping b u Eq b u Ping a
The next iteration gives the same result, so this is the fixpoint. We
\begin{code}
tcDeriving :: FAST_STRING -- name of module under scrutiny
- -> GlobalNameFuns -- for "renaming" bits of generated code
+ -> GlobalNameMappers -- for "renaming" bits of generated code
-> Bag InstInfo -- What we already know about instances
- -> TCE -- All known TyCon info
- -> [RenamedFixityDecl] -- Fixity info; may be used for Text
- -> TcM (Bag InstInfo, -- The generated "instance decls".
- RenamedBinds, -- Extra generated bindings
- PprStyle -> Pretty) -- Printable derived instance decls;
- -- for debugging via -ddump-derivings.
-
-tcDeriving modname renamer_name_funs inst_decl_infos_in tce fixities
- = -- Fish the "deriving"-related information out of the TCE,
- -- from which we make the necessary "equations".
- makeDerivEqns tce `thenTc` \ eqns ->
+ -> [RenamedFixityDecl] -- Fixity info; used by Read and Show
+ -> TcM s (Bag InstInfo, -- The generated "instance decls".
+ RenamedHsBinds, -- Extra generated bindings
+ PprStyle -> Pretty) -- Printable derived instance decls;
+ -- for debugging via -ddump-derivings.
+
+tcDeriving modname renamer_name_funs inst_decl_infos_in fixities
+ = -- Fish the "deriving"-related information out of the TcEnv
+ -- and make the necessary "equations".
+ makeDerivEqns `thenTc` \ 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 modname inst_decl_infos_in eqns
- `thenTc` \ new_inst_infos ->
+ `thenTc` \ new_inst_infos ->
-- Now augment the InstInfos, adding in the rather boring
-- actual-code-to-do-the-methods binds. We may also need to
-- "con2tag" and/or "tag2con" functions. We do these
-- separately.
- gen_taggery_Names eqns `thenTc` \ nm_alist_etc ->
+ gen_taggery_Names eqns `thenTc` \ nm_alist_etc ->
let
nm_alist = [ (pn, n) | (pn,n,_,_) <- nm_alist_etc ]
deriver_name_funs = (deriv_val_gnf, rn_tc_gnf)
assoc_maybe [] _ = Nothing
- assoc_maybe ((v,xxx) : vs) key
- = if v `eqProtoName` key then Just xxx else assoc_maybe vs key
+ assoc_maybe ((k,v) : vs) key
+ = if k `eqProtoName` key then Just v else assoc_maybe vs key
in
gen_tag_n_con_binds deriver_name_funs nm_alist_etc `thenTc` \ extra_binds ->
extra_binds,
ddump_deriving really_new_inst_infos extra_binds)
where
- ddump_deriving :: [InstInfo] -> RenamedBinds -> (PprStyle -> Pretty)
+ ddump_deriving :: [InstInfo] -> RenamedHsBinds -> (PprStyle -> Pretty)
ddump_deriving inst_infos extra_binds sty
- = ppAboves ((map (pp_1 sty) inst_infos) ++ [ppr sty extra_binds])
+ = ppAboves ((map pp_info inst_infos) ++ [ppr sty extra_binds])
where
- pp_1 sty (InstInfo clas tv_tmpls ty inst_decl_theta _ _ _ mbinds _ _ _ _)
- = ppAbove (ppr sty (mkSigmaTy tv_tmpls inst_decl_theta
- (UniDict clas ty)))
+ pp_info (InstInfo clas tvs ty inst_decl_theta _ _ _ mbinds _ _ _ _)
+ = ppAbove (ppr sty (mkSigmaTy tvs inst_decl_theta (mkDictTy clas ty)))
(ppr sty mbinds)
\end{code}
all those.
\begin{code}
-makeDerivEqns :: TCE -> TcM [DerivEqn]
+makeDerivEqns :: TcM s [DerivEqn]
-makeDerivEqns tce
- = let
- think_about_deriving = need_deriving (rngTCE tce)
+makeDerivEqns
+ = tcGetEnv `thenNF_Tc` \ env ->
+ let
+ tycons = getEnv_TyCons env
+ think_about_deriving = need_deriving tycons
in
mapTc (chk_out think_about_deriving) think_about_deriving `thenTc_`
-
- let
- (derive_these, _) = removeDups cmp think_about_deriving
+ let
+ (derive_these, _) = removeDups cmp_deriv think_about_deriving
+ eqns = map mk_eqn derive_these
in
-
- listNF_Tc (map mk_eqn derive_these) `thenNF_Tc` \ eqns ->
-
returnTc eqns
where
------------------------------------------------------------------
need_deriving tycons_to_consider
= foldr ( \ tycon acc ->
- case (getTyConDerivings tycon) of
+ case (tyConDerivings tycon) of
[] -> acc
cs -> [ (clas,tycon) | clas <- cs ] ++ acc
)
- [] -- init accumulator
+ []
tycons_to_consider
------------------------------------------------------------------
- chk_out :: [(Class, TyCon)] -> (Class, TyCon) -> TcM ()
-
+ chk_out :: [(Class, TyCon)] -> (Class, TyCon) -> TcM s ()
chk_out whole_deriving_list this_one@(clas, tycon)
- = -- Are the relevant superclasses catered for?
- -- E.g., for "... deriving Ord", is there an
- -- instance of "Eq"?
- let
- (_, super_classes, _) = getClassSig clas
+ = let
clas_key = getClassKey clas
in
-- Are things OK for deriving Ix (if appropriate)?
checkTc (clas_key == ixClassKey
- && not (isEnumerationTyCon tycon
- || maybeToBool (maybeSingleConstructorTyCon tycon)))
+ && not (isEnumerationTyCon tycon
+ || maybeToBool (maybeTyConSingleCon tycon)))
(derivingIxErr tycon)
------------------------------------------------------------------
- cmp :: (Class, TyCon) -> (Class, TyCon) -> TAG_
-
- cmp (c1, t1) (c2, t2)
- = case cmpClass c1 c2 of
- EQ_ -> cmpTyCon t1 t2
- other -> other
+ cmp_deriv :: (Class, TyCon) -> (Class, TyCon) -> TAG_
+ cmp_deriv (c1, t1) (c2, t2)
+ = (c1 `cmp` c2) `thenCmp` (t1 `cmp` t2)
------------------------------------------------------------------
- mk_eqn :: (Class, TyCon) -> NF_TcM DerivEqn
- -- we swizzle the tyvars, data cons, etc., out of the tycon,
+ 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)
- = let
- tyvar_tmpls = getTyConTyVarTemplates tycon
- data_cons = getTyConDataCons tycon
- in
- copyTyVars tyvar_tmpls `thenNF_Tc` \ (_, tyvars, tyvar_tys) ->
-
- let
- constraints = concat [mk_constraints tyvar_tys con | con <- data_cons]
- in
- returnNF_Tc (clas, tycon, tyvars, constraints)
+ = (clas, tycon, tyvars, constraints)
where
- mk_constraints tyvar_tys data_con
+ tyvars = tyConTyVars tycon -- ToDo: Do we need new tyvars ???
+ tyvar_tys = mkTyVarTys tyvars
+ data_cons = tyConDataCons tycon
+ constraints = concat (map mk_constraints data_cons)
+
+ mk_constraints data_con
= [ (clas, instantiateTy inst_env arg_ty)
| arg_ty <- arg_tys,
not (isPrimType arg_ty) -- No constraints for primitive types
]
where
- (con_tyvar_tmpls, _, arg_tys, _) = getDataConSig data_con
- inst_env = con_tyvar_tmpls `zipEqual` tyvar_tys
- -- Type vars in data contructor should be same in number
- -- as in the type contsructor!
+ (con_tyvars, _, arg_tys, _) = dataConSig data_con
+ inst_env = con_tyvars `zipEqual` tyvar_tys
+ -- same number of tyvars in data constr and type constr!
\end{code}
%************************************************************************
%* *
%************************************************************************
-A ``solution'' (to one of the equations) is a list of (k,UniTyVar tv)
+A ``solution'' (to one of the equations) is a list of (k,TyVarTy tv)
terms, which is the final correct RHS for the corresponding original
equation.
\begin{itemize}
\begin{code}
solveDerivEqns :: FAST_STRING
-> Bag InstInfo
- -> [DerivEqn]
- -> TcM [InstInfo] -- Solns in same order as eqns.
+ -> [DerivEqn]
+ -> TcM s [InstInfo] -- Solns in same order as eqns.
-- This bunch is Absolutely minimal...
solveDerivEqns modname inst_decl_infos_in orig_eqns
-- compares it with the current one; finishes if they are the
-- same, otherwise recurses with the new solutions.
- iterateDeriv :: [DerivSoln] ->TcM [InstInfo]
+ iterateDeriv :: [DerivSoln] ->TcM s [InstInfo]
iterateDeriv current_solns
- = -- Extend the inst info from the explicit instance decls
+ = -- Extend the inst info from the explicit instance decls
-- with the current set of solutions, giving a
add_solns modname inst_decl_infos_in orig_eqns current_solns
-- inst_mapper reflecting the previous solution
let
mk_deriv_origin clas ty
- = DerivingOrigin inst_mapper clas is_fun_type tycon locn
+ = DerivingOrigin inst_mapper clas tycon
where
- is_fun_type = isFunType ty
- (tycon,_,_) = getUniDataTyCon ty
- locn = if is_fun_type then mkUnknownSrcLoc{-sigh-} else getSrcLoc tycon
+ (tycon,_) = getAppTyCon ty
in
listTc [ tcSimplifyThetas mk_deriv_origin rhs
| (_, _, _, rhs) <- orig_eqns
-- Canonicalise the solutions, so they compare nicely
let canonicalised_next_solns
- = [ sortLt less_than next_soln | next_soln <- next_solns ] in
+ = [ sortLt lt_rhs next_soln | next_soln <- next_solns ] in
- if current_solns == canonicalised_next_solns then
- returnTc new_inst_infos
- else
- iterateDeriv canonicalised_next_solns
+ if current_solns `eq_solns` canonicalised_next_solns then
+ returnTc new_inst_infos
+ else
+ iterateDeriv canonicalised_next_solns
where
------------------------------------------------------------------
- less_than :: (Class, TauType) -> (Class, TauType) -> Bool
-
- less_than (clas1, UniTyVar tv1) (clas2, UniTyVar tv2)
- = tv1 < tv2 || (tv1 == tv2 && clas1 < clas2)
+ 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
- less_than other_1 other_2
- = pprPanic "tcDeriv:less_than:" (ppCat [ppr PprDebug other_1, ppr PprDebug other_2])
+ cmp_rhs other_1 other_2
+ = pprPanic# "tcDeriv:cmp_rhs:" (ppCat [ppr PprDebug other_1, ppr PprDebug other_2])
#endif
+
\end{code}
\begin{code}
add_solns :: FAST_STRING
-> Bag InstInfo -- The global, non-derived ones
-> [DerivEqn] -> [DerivSoln]
- -> TcM ([InstInfo], -- The new, derived ones
- InstanceMapper)
+ -> 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 modname inst_infos_in eqns solns
- = listTc (zipWith mk_deriv_inst_info eqns solns) `thenTc` \ new_inst_infos ->
-
- buildInstanceEnvs (inst_infos_in `unionBags`
- listToBag new_inst_infos) `thenTc` \ inst_mapper ->
-
+ = buildInstanceEnvs all_inst_infos `thenTc` \ inst_mapper ->
returnTc (new_inst_infos, inst_mapper)
where
- mk_deriv_inst_info (clas, tycon, tyvars, _) theta
- -- The complication here is rather boring: InstInfos need TyVarTemplates,
- -- and we have only TyVars in our hand.
- = let
- tyvar_tmpls = mkTemplateTyVars tyvars
- tv_tmpl_tys = map mkTyVarTemplateTy tyvar_tmpls
+ new_inst_infos = zipWithEqual mk_deriv_inst_info eqns solns
- env = tyvars `zipEqual` tv_tmpl_tys
-
- tycon_tmpl_ty = applyTyCon tycon tv_tmpl_tys
- theta_tmpl = [(clas, mapOverTyVars to_tmpl ty) | (clas,ty) <- theta]
+ all_inst_infos = inst_infos_in `unionBags` listToBag new_inst_infos
- to_tmpl = assoc "mk_deriv_inst_info" env
-
- (class_tyvar, super_classes, _, class_ops, _, _) = getClassBigSig clas
- in
- returnTc (
- InstInfo clas tyvar_tmpls tycon_tmpl_ty
- theta_tmpl
- theta_tmpl -- Blarg. This is the dfun_theta slot,
+ mk_deriv_inst_info (clas, tycon, tyvars, _) theta
+ = InstInfo clas tyvars (applyTyCon tycon (mkTyVarTys tyvars))
+ theta
+ theta -- Blarg. This is the dfun_theta slot,
-- which is needed by buildInstanceEnv;
-- This works ok for solving the eqns, and
- -- gen_eqns sets it to its final value
+ -- gen_eqns sets it to its final value
-- (incl super class dicts) before we
-- finally return it.
-#ifndef DEBUG
- (panic "add_soln:dfun_id") (panic "add_soln:const_meth_ids")
- (panic "add_soln:binds") (panic "add_soln:from_here")
- (panic "add_soln:modname") mkGeneratedSrcLoc
- (panic "add_soln:upragmas")
- )
+#ifdef DEBUG
+ (panic "add_soln:dfun_id") (panic "add_soln:const_meth_ids")
+ (panic "add_soln:binds") (panic "add_soln:from_here")
+ (panic "add_soln:modname") mkGeneratedSrcLoc
+ (panic "add_soln:upragmas")
#else
bottom bottom bottom bottom bottom mkGeneratedSrcLoc bottom
- )
where
bottom = panic "add_soln"
#endif
gen_inst_info :: FAST_STRING -- Module name
-> [RenamedFixityDecl] -- all known fixities;
-- may be needed for Text
- -> GlobalNameFuns -- lookup stuff for names we may use
+ -> GlobalNameMappers -- lookup stuff for names we may use
-> InstInfo -- the main stuff to work on
- -> TcM InstInfo -- the gen'd (filled-in) "instance decl"
+ -> TcM s InstInfo -- the gen'd (filled-in) "instance decl"
gen_inst_info modname fixities deriver_name_funs
- info@(InstInfo clas tyvar_tmpls ty inst_decl_theta _ _ _ _ _ _ locn _)
- =
+ info@(InstInfo clas tyvars ty inst_decl_theta _ _ _ _ _ _ locn _)
+ =
-- Generate the various instance-related Ids
mkInstanceRelatedIds
- (panic "add_solns:E")
- -- These two are only needed if there are pragmas to typecheck;
- -- but there ain't since we are generating the code right here.
- True {-yes, from_here-}
+ True {-from_here-} modname
NoInstancePragmas
- mkGeneratedSrcLoc
- clas
- tyvar_tmpls ty
+ clas tyvars ty
inst_decl_theta
[{-no user pragmas-}]
`thenTc` \ (dfun_id, dfun_theta, const_meth_ids) ->
- -- Generate the bindings for the new instance declaration,
+ -- Generate the bindings for the new instance declaration,
-- rename it, and check for errors
- getSwitchCheckerTc `thenNF_Tc` \ sw_chkr ->
let
- (tycon,_,_) = getUniDataTyCon ty
-
- omit_readsPrec = sw_chkr OmitDerivedRead
+ (tycon,_,_) = getAppDataTyCon ty
proto_mbinds
- = if clas_key == textClassKey then gen_Text_binds fixities omit_readsPrec tycon
- else if clas_key == eqClassKey then gen_Eq_binds tycon
- else if clas_key == ordClassKey then gen_Ord_binds tycon
- else if clas_key == enumClassKey then gen_Enum_binds tycon
- else if clas_key == ixClassKey then gen_Ix_binds tycon
- else if clas_key == binaryClassKey then gen_Binary_binds tycon
- else panic "gen_inst_info:bad derived class"
+ | clas_key == eqClassKey = gen_Eq_binds tycon
+ | clas_key == showClassKey = gen_Show_binds fixities tycon
+ | clas_key == ordClassKey = gen_Ord_binds tycon
+ | clas_key == enumClassKey = gen_Enum_binds tycon
+ | clas_key == ixClassKey = gen_Ix_binds tycon
+ | clas_key == readClassKey = gen_Read_binds fixities tycon
+ | clas_key == binaryClassKey = gen_Binary_binds tycon
+ | otherwise = panic "gen_inst_info:bad derived class"
in
rn4MtoTcM deriver_name_funs (
- rnMethodBinds4 clas_Name proto_mbinds
+ rnMethodBinds clas_Name proto_mbinds
) `thenNF_Tc` \ (mbinds, errs) ->
if not (isEmptyBag errs) then
- pprPanic "gen_inst_info:renamer errs!\n" (ppAbove (pprBagOfErrors PprDebug errs) (ppr PprDebug proto_mbinds))
+ pprPanic "gen_inst_info:renamer errs!\n"
+ (ppAbove (pprBagOfErrors PprDebug errs) (ppr PprDebug proto_mbinds))
else
--- pprTrace "derived binds:" (ppr PprDebug proto_mbinds) $
+ --pprTrace "derived binds:" (ppr PprDebug proto_mbinds) $
-- All done
- let
+ let
from_here = isLocallyDefined tycon -- If so, then from here
in
- returnTc (InstInfo clas tyvar_tmpls ty
- inst_decl_theta dfun_theta dfun_id const_meth_ids
- -- and here comes the main point...
+ returnTc (InstInfo clas tyvars ty inst_decl_theta
+ dfun_theta dfun_id const_meth_ids
(if from_here then mbinds else EmptyMonoBinds)
from_here modname locn [])
where
clas_key = getClassKey clas
clas_Name
= let (mod, nm) = getOrigName clas in
- PreludeClass clas_key (mkPreludeCoreName mod nm)
+ ClassName clas_key (mkPreludeCoreName mod nm) []
\end{code}
%************************************************************************
maxtag_Foo :: Int -- ditto (NB: not unboxed)
\begin{code}
-gen_tag_n_con_binds :: GlobalNameFuns
+gen_tag_n_con_binds :: GlobalNameMappers
-> [(ProtoName, Name, TyCon, TagThingWanted)]
- -> TcM RenamedBinds
+ -> TcM s RenamedHsBinds
gen_tag_n_con_binds deriver_name_funs nm_alist_etc
= let
in
rn4MtoTcM deriver_name_funs (
- rnTopBinds4 (SingleBind (RecBind proto_mbinds))
+ rnTopBinds (SingleBind (RecBind proto_mbinds))
) `thenNF_Tc` \ (binds, errs) ->
if not (isEmptyBag errs) then
If we have a @tag2con@ function, we also generate a @maxtag@ constant.
\begin{code}
-data TagThingWanted
- = GenCon2Tag | GenTag2Con | GenMaxTag
-
gen_taggery_Names :: [DerivEqn]
- -> TcM [(ProtoName, Name, -- for an assoc list
- TyCon, -- related tycon
- TagThingWanted)]
+ -> TcM s [(ProtoName, Name, -- for an assoc list
+ TyCon, -- related tycon
+ TagThingWanted)]
gen_taggery_Names eqns
- = let all_tycons = [ tc | (_, tc, _, _) <- eqns ]
- (tycons_of_interest, _) = removeDups cmpTyCon all_tycons
+ = let
+ all_tycons = [ tc | (_, tc, _, _) <- eqns ]
+ (tycons_of_interest, _) = removeDups cmp all_tycons
in
foldlTc do_con2tag [] tycons_of_interest `thenTc` \ names_so_far ->
foldlTc do_tag2con names_so_far tycons_of_interest
where
do_con2tag acc_Names tycon
= if (we_are_deriving eqClassKey tycon
- && any isNullaryDataCon (getTyConDataCons tycon))
+ && any ( (== 0).dataConArity ) (tyConDataCons tycon))
|| (we_are_deriving ordClassKey tycon
- && not (maybeToBool (maybeSingleConstructorTyCon tycon)))
+ && not (maybeToBool (maybeTyConSingleCon tycon)))
|| (we_are_deriving enumClassKey tycon)
|| (we_are_deriving ixClassKey tycon)
then
- getUniqueTc `thenNF_Tc` ( \ u ->
- returnTc ((con2tag_PN tycon, OtherTopId u (con2tag_FN tycon), tycon, GenCon2Tag)
+ tcGetUnique `thenNF_Tc` ( \ u ->
+ returnTc ((con2tag_PN tycon, ValName u (con2tag_FN tycon), tycon, GenCon2Tag)
: acc_Names) )
else
returnTc acc_Names
= if (we_are_deriving enumClassKey tycon)
|| (we_are_deriving ixClassKey tycon)
then
- getUniqueTc `thenNF_Tc` \ u1 ->
- getUniqueTc `thenNF_Tc` \ u2 ->
- returnTc ( (tag2con_PN tycon, OtherTopId u1 (tag2con_FN tycon), tycon, GenTag2Con)
- : (maxtag_PN tycon, OtherTopId u2 (maxtag_FN tycon), tycon, GenMaxTag)
+ tcGetUnique `thenNF_Tc` \ u1 ->
+ tcGetUnique `thenNF_Tc` \ u2 ->
+ returnTc ( (tag2con_PN tycon, ValName u1 (tag2con_FN tycon), tycon, GenTag2Con)
+ : (maxtag_PN tycon, ValName u2 (maxtag_FN tycon), tycon, GenMaxTag)
: acc_Names)
else
returnTc acc_Names
= is_in_eqns clas_key tycon eqns
where
is_in_eqns clas_key tycon [] = False
- is_in_eqns clas_key tycon ((c,t,_,_):eqns) -- ToDo: InstInfo
+ is_in_eqns clas_key tycon ((c,t,_,_):eqns)
= (clas_key == getClassKey c && tycon == t)
|| is_in_eqns clas_key tycon eqns
-con2tag_PN, tag2con_PN, maxtag_PN :: TyCon -> ProtoName
-con2tag_FN, tag2con_FN, maxtag_FN :: TyCon -> FullName
-
-con2tag_PN tycon
- = let (mod, nm) = getOrigName tycon
- con2tag = SLIT("con2tag_") _APPEND_ nm _APPEND_ SLIT("#")
- in
- Imp mod con2tag [mod] con2tag
-
-con2tag_FN tycon
- = let (mod, nm) = getOrigName tycon
- con2tag = SLIT("con2tag_") _APPEND_ nm _APPEND_ SLIT("#")
- in
- mkFullName mod con2tag InventedInThisModule NotExported mkGeneratedSrcLoc
-
-tag2con_PN tycon
- = let (mod, nm) = getOrigName tycon
- tag2con = SLIT("tag2con_") _APPEND_ nm _APPEND_ SLIT("#")
- in
- Imp mod tag2con [mod] tag2con
-
-tag2con_FN tycon
- = let (mod, nm) = getOrigName tycon
- tag2con = SLIT("tag2con_") _APPEND_ nm _APPEND_ SLIT("#")
- in
- mkFullName mod tag2con InventedInThisModule NotExported mkGeneratedSrcLoc
-
-maxtag_PN tycon
- = let (mod, nm) = getOrigName tycon
- maxtag = SLIT("maxtag_") _APPEND_ nm _APPEND_ SLIT("#")
- in
- Imp mod maxtag [mod] maxtag
+\end{code}
-maxtag_FN tycon
- = let (mod, nm) = getOrigName tycon
- maxtag = SLIT("maxtag_") _APPEND_ nm _APPEND_ SLIT("#")
- in
- mkFullName mod maxtag InventedInThisModule NotExported mkGeneratedSrcLoc
+\begin{code}
+derivingEnumErr :: TyCon -> TcError
+derivingEnumErr tycon
+ = addErrLoc (getSrcLoc tycon) "Can't derive an instance of `Enum'" ( \ sty ->
+ ppBesides [ppStr "type `", ppr sty tycon, ppStr "'"] )
+
+derivingIxErr :: TyCon -> TcError
+derivingIxErr tycon
+ = addErrLoc (getSrcLoc tycon) "Can't derive an instance of `Ix'" ( \ sty ->
+ ppBesides [ppStr "type `", ppr sty tycon, ppStr "'"] )
\end{code}