%
-% (c) The GRASP/AQUA Project, Glasgow University, 1992-1995
+% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
\section[TcGenDeriv]{Generating derived instance declarations}
This is where we do all the grimy bindings' generation.
\begin{code}
-#include "HsVersions.h"
-
module TcGenDeriv (
- a_Expr,
- a_PN,
- a_Pat,
- ah_PN,
- b_Expr,
- b_PN,
- b_Pat,
- bh_PN,
- c_Expr,
- c_PN,
- c_Pat,
- ch_PN,
- cmp_eq_PN,
- d_Expr,
- d_PN,
- d_Pat,
- dh_PN,
- eqH_PN,
- eq_TAG_Expr,
- eq_TAG_PN,
- error_PN,
- false_Expr,
- false_PN,
- geH_PN,
- gen_Binary_binds,
+ gen_Bounded_binds,
gen_Enum_binds,
gen_Eq_binds,
gen_Ix_binds,
gen_Ord_binds,
- gen_Text_binds,
+ gen_Read_binds,
+ gen_Show_binds,
gen_tag_n_con_monobind,
- gt_TAG_Expr,
- gt_TAG_PN,
- leH_PN,
- ltH_PN,
- lt_TAG_Expr,
- lt_TAG_PN,
- minusH_PN,
- mkInt_PN,
- rangeSize_PN,
- true_Expr,
- true_PN
- ) where
-IMPORT_Trace -- ToDo:rm debugging
-import Outputable
-import Pretty
+ con2tag_RDR, tag2con_RDR, maxtag_RDR,
+
+ TagThingWanted(..)
+ ) where
-import AbsSyn -- the stuff being typechecked
+#include "HsVersions.h"
-import AbsPrel {-( trueDataCon, falseDataCon, intDataCon, eRROR_ID,
- ltPrimDataCon, eqPrimDataCon, gtPrimDataCon,
- charPrimTy, intPrimTy, wordPrimTy, addrPrimTy,
- floatPrimTy, doublePrimTy
- )-}
-import PrimOps -- *********** ditto
-
-import AbsUniType ( getTyConDataCons, isEnumerationTyCon,
- maybeSingleConstructorTyCon, --UNUSED: preludeClassDerivedFor,
- -- UNUSED: isEnumerationTyConMostly,
- isPrimType, UniType,
- TauType(..), TyVarTemplate, ThetaType(..)
- IF_ATTACK_PRAGMAS(COMMA cmpUniType)
+import HsSyn ( InPat(..), HsExpr(..), MonoBinds(..),
+ Match(..), GRHSsAndBinds(..), Stmt(..), HsLit(..),
+ HsBinds(..), StmtCtxt(..),
+ unguardedRHS
)
-import Id ( getDataConArity, getDataConTag,
- getDataConSig, isNullaryDataCon, fIRST_TAG,
- isDataCon, DataCon(..), ConTag(..), Id
+import RdrHsSyn ( RdrName(..), varUnqual, mkOpApp,
+ RdrNameMonoBinds, RdrNameHsExpr, RdrNamePat
)
-import Maybes ( maybeToBool, Maybe(..) )
-import Name ( Name(..) )
-import ProtoName ( ProtoName(..) )
-import RenameAuxFuns -- why not? take all of it...
-import RenameMonad4 -- initRn4, etc.
-import SrcLoc ( mkGeneratedSrcLoc )
-import TcDeriv ( con2tag_PN, tag2con_PN, maxtag_PN,
- TagThingWanted(..), DerivEqn(..)
+import BasicTypes ( IfaceFlavour(..), RecFlag(..) )
+import FieldLabel ( fieldLabelName )
+import DataCon ( isNullaryDataCon, dataConTag,
+ dataConRawArgTys, fIRST_TAG,
+ DataCon, ConTag,
+ dataConFieldLabels )
+import Name ( getOccString, getOccName, getSrcLoc, occNameString,
+ modAndOcc, OccName, Name )
+
+import PrimOp ( PrimOp(..) )
+import PrelInfo -- Lots of RdrNames
+import SrcLoc ( mkGeneratedSrcLoc, SrcLoc )
+import TyCon ( TyCon, isNewTyCon, tyConDataCons, isEnumerationTyCon,
+ maybeTyConSingleCon
)
-import Unique -- some ClassKey stuff
-import Util
+import Type ( isUnLiftedType, isUnboxedType, Type )
+import TysPrim ( charPrimTy, intPrimTy, wordPrimTy, addrPrimTy,
+ floatPrimTy, doublePrimTy
+ )
+import Util ( mapAccumL, zipEqual, zipWithEqual,
+ zipWith3Equal, nOfThem, panic, assertPanic )
+import Maybes ( maybeToBool )
+import List ( partition, intersperse )
\end{code}
%************************************************************************
%* *
-\subsection[TcGenDeriv-classes]{Generating code, by derivable class}
+\subsection{Generating code, by derivable class}
%* *
%************************************************************************
%************************************************************************
%* *
-\subsubsection[TcGenDeriv-Eq]{Generating @Eq@ instance declarations}
+\subsubsection{Generating @Eq@ instance declarations}
%* *
%************************************************************************
tycon, we generate:
\begin{verbatim}
instance ... Eq (Foo ...) where
- (==) a b = case (tagCmp a b) of { _LT -> False; _EQ -> True ; _GT -> False}
- (/=) a b = case (tagCmp a b) of { _LT -> True ; _EQ -> False; _GT -> True }
+ (==) a b = case (compare a b) of { _LT -> False; _EQ -> True ; _GT -> False}
+ (/=) a b = case (compare a b) of { _LT -> True ; _EQ -> False; _GT -> True }
\begin{verbatim}
However, that requires that \tr{Ord <whatever>} was put in the context
for the instance decl, which it probably wasn't, so the decls
produced don't get through the typechecker.
\end{itemize}
+
+deriveEq :: RdrName -- Class
+ -> RdrName -- Type constructor
+ -> [ (RdrName, [RdrType]) ] -- Constructors
+ -> (RdrContext, -- Context for the inst decl
+ [RdrBind], -- Binds in the inst decl
+ [RdrBind]) -- Extra value bindings outside
+
+deriveEq clas tycon constrs
+ = (context, [eq_bind, ne_bind], [])
+ where
+ context = [(clas, [ty]) | (_, tys) <- constrs, ty <- tys]
+
+ ne_bind = mkBind
+ (nullary_cons, non_nullary_cons) = partition is_nullary constrs
+ is_nullary (_, args) = null args
+
\begin{code}
-gen_Eq_binds :: TyCon -> ProtoNameMonoBinds
+gen_Eq_binds :: TyCon -> RdrNameMonoBinds
gen_Eq_binds tycon
- = case (partition isNullaryDataCon (getTyConDataCons tycon))
- of { (nullary_cons, nonnullary_cons) ->
- let
+ = let
+ tycon_loc = getSrcLoc tycon
+ (nullary_cons, nonnullary_cons)
+ | isNewTyCon tycon = ([], tyConDataCons tycon)
+ | otherwise = partition isNullaryDataCon (tyConDataCons tycon)
+
rest
- = if null nullary_cons then
- case maybeSingleConstructorTyCon tycon of
+ = if (null nullary_cons) then
+ case maybeTyConSingleCon tycon of
Just _ -> []
Nothing -> -- if cons don't match, then False
[([a_Pat, b_Pat], false_Expr)]
else -- calc. and compare the tags
- [([a_Pat, b_Pat],
- untag_Expr tycon [(a_PN,ah_PN), (b_PN,bh_PN)]
- (cmp_tags_Expr eqH_PN ah_PN bh_PN true_Expr false_Expr))]
+ [([a_Pat, b_Pat],
+ untag_Expr tycon [(a_RDR,ah_RDR), (b_RDR,bh_RDR)]
+ (cmp_tags_Expr eqH_Int_RDR ah_RDR bh_RDR true_Expr false_Expr))]
in
- mk_FunMonoBind eq_PN ((map pats_etc nonnullary_cons) ++ rest)
- `AndMonoBinds` boring_ne_method
- }
- where
+ mk_FunMonoBind tycon_loc eq_RDR ((map pats_etc nonnullary_cons) ++ rest)
+ `AndMonoBinds`
+ mk_easy_FunMonoBind tycon_loc ne_RDR [a_Pat, b_Pat] [] (
+ HsApp (HsVar not_RDR) (HsPar (mk_easy_App eq_RDR [a_RDR, b_RDR])))
+ where
------------------------------------------------------------------
pats_etc data_con
= let
- con1_pat = ConPatIn data_con_PN (map VarPatIn as_needed)
- con2_pat = ConPatIn data_con_PN (map VarPatIn bs_needed)
-
- data_con_PN = Prel (WiredInVal data_con)
- as_needed = take (getDataConArity data_con) as_PNs
- bs_needed = take (getDataConArity data_con) bs_PNs
- tys_needed = case (getDataConSig data_con) of
- (_,_, arg_tys, _) -> arg_tys
- in
+ con1_pat = ConPatIn data_con_RDR (map VarPatIn as_needed)
+ con2_pat = ConPatIn data_con_RDR (map VarPatIn bs_needed)
+
+ data_con_RDR = qual_orig_name data_con
+ con_arity = length tys_needed
+ as_needed = take con_arity as_RDRs
+ bs_needed = take con_arity bs_RDRs
+ tys_needed = dataConRawArgTys data_con
+ in
([con1_pat, con2_pat], nested_eq_expr tys_needed as_needed bs_needed)
where
- nested_eq_expr [] [] [] = true_Expr
- nested_eq_expr [ty] [a] [b] = eq_Expr ty (Var a) (Var b)
- nested_eq_expr (t:ts) (a:as) (b:bs)
- = let
- rest_expr = nested_eq_expr ts as bs
- in
- and_Expr (eq_Expr t (Var a) (Var b)) rest_expr
-
-boring_ne_method
- = mk_easy_FunMonoBind ne_PN [a_Pat, b_Pat] [] (
- App (Var not_PN) (App (App (Var eq_PN) a_Expr) b_Expr)
- )
+ nested_eq_expr [] [] [] = true_Expr
+ nested_eq_expr tys as bs
+ = foldl1 and_Expr (zipWith3Equal "nested_eq" nested_eq tys as bs)
+ where
+ nested_eq ty a b = HsPar (eq_Expr ty (HsVar a) (HsVar b))
\end{code}
%************************************************************************
%* *
-\subsubsection[TcGenDeriv-Ord]{Generating @Ord@ instance declarations}
+\subsubsection{Generating @Ord@ instance declarations}
%* *
%************************************************************************
-For a derived @Ord@, we concentrate our attentions on the non-standard
-@_tagCmp@ method, which type:
+For a derived @Ord@, we concentrate our attentions on @compare@
\begin{verbatim}
-_tagCmp :: a -> a -> _CMP_TAG
-
--- and the builtin tag type is:
-
-data _CMP_TAG = _LT | _EQ | _GT deriving ()
+compare :: a -> a -> Ordering
+data Ordering = LT | EQ | GT deriving ()
\end{verbatim}
-(All this @_tagCmp@ stuff is due to the sterling analysis by Julian
-Seward.)
-
We will use the same example data type as above:
\begin{verbatim}
data Foo ... = N1 | N2 ... | Nn | O1 a b | O2 Int | O3 Double b b | ...
\begin{itemize}
\item
- We do all the other @Ord@ methods with calls to @_tagCmp@:
+ We do all the other @Ord@ methods with calls to @compare@:
\begin{verbatim}
instance ... (Ord <wurble> <wurble>) where
- a < b = case _tagCmp a b of { _LT -> True; _EQ -> False; _GT -> False }
- a <= b = case _tagCmp a b of { _LT -> True; _EQ -> True; _GT -> False }
- a >= b = case _tagCmp a b of { _LT -> False; _EQ -> True; _GT -> True }
- a > b = case _tagCmp a b of { _LT -> False; _EQ -> False; _GT -> True }
+ a < b = case (compare a b) of { LT -> True; EQ -> False; GT -> False }
+ a <= b = case (compare a b) of { LT -> True; EQ -> True; GT -> False }
+ a >= b = case (compare a b) of { LT -> False; EQ -> True; GT -> True }
+ a > b = case (compare a b) of { LT -> False; EQ -> False; GT -> True }
- max a b = case _tagCmp a b of { _LT -> b; _EQ -> a; _GT -> a }
- min a b = case _tagCmp a b of { _LT -> a; _EQ -> a; _GT -> b }
+ max a b = case (compare a b) of { LT -> b; EQ -> a; GT -> a }
+ min a b = case (compare a b) of { LT -> a; EQ -> b; GT -> b }
- -- _tagCmp to come...
+ -- compare to come...
\end{verbatim}
\item
- @_tagCmp@ always has two parts. First, we use the compared
+ @compare@ always has two parts. First, we use the compared
data-constructors' tags to deal with the case of different
constructors:
\begin{verbatim}
-_tagCmp a b = case (con2tag_Foo a) of { a# ->
- case (con2tag_Foo b) of { b# ->
- case (a# ==# b#) of {
+compare a b = case (con2tag_Foo a) of { a# ->
+ case (con2tag_Foo b) of { b# ->
+ case (a# ==# b#) of {
True -> cmp_eq a b
False -> case (a# <# b#) of
True -> _LT
False -> _GT
- }}}
+ }}}
where
cmp_eq = ... to come ...
\end{verbatim}
comparing data constructors with the same tag.
For the ordinary constructors (if any), we emit the sorta-obvious
- tagCmp-style stuff; for our example:
+ compare-style stuff; for our example:
\begin{verbatim}
cmp_eq (O1 a1 b1) (O1 a2 b2)
- = case (_tagCmp a1 a2) of { _LT -> _LT; _EQ -> _tagCmp b1 b2; _GT -> _GT }
+ = case (compare a1 a2) of { LT -> LT; EQ -> compare b1 b2; GT -> GT }
cmp_eq (O2 a1) (O2 a2)
- = _tagCmp a1 a2
+ = compare a1 a2
cmp_eq (O3 a1 b1 c1) (O3 a2 b2 c2)
- = case (_tagCmp a1 a2) of {
- _LT -> _LT;
- _GT -> _GT;
- _EQ -> case _tagCmp b1 b2 of {
- _LT -> _LT;
- _GT -> _GT;
- _EQ -> _tagCmp c1 c2
- }
+ = case (compare a1 a2) of {
+ LT -> LT;
+ GT -> GT;
+ EQ -> case compare b1 b2 of {
+ LT -> LT;
+ GT -> GT;
+ EQ -> compare c1 c2
+ }
}
\end{verbatim}
Again, we must be careful about unboxed comparisons. For example,
if \tr{a1} and \tr{a2} were \tr{Int#}s in the 2nd example above, we'd need to
generate:
+
\begin{verbatim}
cmp_eq lt eq gt (O2 a1) (O2 a2)
- = tagCmpInt# a1 a2
+ = compareInt# a1 a2
-- or maybe the unfolded equivalent
\end{verbatim}
For the remaining nullary constructors, we already know that the
tags are equal so:
\begin{verbatim}
-cmp_eq _ _ = _EQ
+cmp_eq _ _ = EQ
\end{verbatim}
\end{itemize}
+If there is only one constructor in the Data Type we don't need the WildCard Pattern.
+JJQC-30-Nov-1997
+
\begin{code}
-gen_Ord_binds :: TyCon -> ProtoNameMonoBinds
+gen_Ord_binds :: TyCon -> RdrNameMonoBinds
gen_Ord_binds tycon
- = defaulted `AndMonoBinds` tagCmp
+ = defaulted `AndMonoBinds` compare
where
+ tycon_loc = getSrcLoc tycon
--------------------------------------------------------------------
- tagCmp = mk_easy_FunMonoBind tagCmp_PN
+ compare = mk_easy_FunMonoBind tycon_loc compare_RDR
[a_Pat, b_Pat]
[cmp_eq]
- (if maybeToBool (maybeSingleConstructorTyCon tycon) then
- cmp_eq_Expr lt_TAG_Expr eq_TAG_Expr gt_TAG_Expr a_Expr b_Expr
+ (if maybeToBool (maybeTyConSingleCon tycon) then
+ cmp_eq_Expr ltTag_Expr eqTag_Expr gtTag_Expr a_Expr b_Expr
else
- untag_Expr tycon [(a_PN, ah_PN), (b_PN, bh_PN)]
- (cmp_tags_Expr eqH_PN ah_PN bh_PN
+ untag_Expr tycon [(a_RDR, ah_RDR), (b_RDR, bh_RDR)]
+ (cmp_tags_Expr eqH_Int_RDR ah_RDR bh_RDR
-- True case; they are equal
-- If an enumeration type we are done; else
-- recursively compare their components
(if isEnumerationTyCon tycon then
- eq_TAG_Expr
+ eqTag_Expr
else
- cmp_eq_Expr lt_TAG_Expr eq_TAG_Expr gt_TAG_Expr a_Expr b_Expr
+ cmp_eq_Expr ltTag_Expr eqTag_Expr gtTag_Expr a_Expr b_Expr
)
-- False case; they aren't equal
-- So we need to do a less-than comparison on the tags
- (cmp_tags_Expr ltH_PN ah_PN bh_PN lt_TAG_Expr gt_TAG_Expr)))
+ (cmp_tags_Expr ltH_Int_RDR ah_RDR bh_RDR ltTag_Expr gtTag_Expr)))
+ tycon_data_cons = tyConDataCons tycon
(nullary_cons, nonnullary_cons)
- = partition isNullaryDataCon (getTyConDataCons tycon)
-
- cmp_eq
- = mk_FunMonoBind cmp_eq_PN (map pats_etc nonnullary_cons ++ deflt_pats_etc)
+ | isNewTyCon tycon = ([], tyConDataCons tycon)
+ | otherwise = partition isNullaryDataCon tycon_data_cons
+
+ cmp_eq =
+ mk_FunMonoBind tycon_loc
+ cmp_eq_RDR
+ (if null nonnullary_cons && (length nullary_cons == 1) then
+ -- catch this specially to avoid warnings
+ -- about overlapping patterns from the desugarer.
+ let
+ data_con = head nullary_cons
+ data_con_RDR = qual_orig_name data_con
+ pat = ConPatIn data_con_RDR []
+ in
+ [([pat,pat], eqTag_Expr)]
+ else
+ map pats_etc nonnullary_cons ++
+ -- leave out wildcards to silence desugarer.
+ (if length tycon_data_cons == 1 then
+ []
+ else
+ [([WildPatIn, WildPatIn], default_rhs)]))
where
pats_etc data_con
= ([con1_pat, con2_pat],
- nested_tagCmp_expr tys_needed as_needed bs_needed)
+ nested_compare_expr tys_needed as_needed bs_needed)
where
- con1_pat = ConPatIn data_con_PN (map VarPatIn as_needed)
- con2_pat = ConPatIn data_con_PN (map VarPatIn bs_needed)
-
- data_con_PN = Prel (WiredInVal data_con)
- as_needed = take (getDataConArity data_con) as_PNs
- bs_needed = take (getDataConArity data_con) bs_PNs
- tys_needed = case (getDataConSig data_con) of
- (_,_, arg_tys, _) -> arg_tys
-
- nested_tagCmp_expr [ty] [a] [b]
- = careful_tagCmp_Case ty lt_TAG_Expr eq_TAG_Expr gt_TAG_Expr (Var a) (Var b)
-
- nested_tagCmp_expr (ty:tys) (a:as) (b:bs)
- = let eq_expr = nested_tagCmp_expr tys as bs
- in careful_tagCmp_Case ty lt_TAG_Expr eq_expr gt_TAG_Expr (Var a) (Var b)
-
- deflt_pats_etc
- = if null nullary_cons
- then []
- else [([a_Pat, b_Pat], eq_TAG_Expr)]
+ con1_pat = ConPatIn data_con_RDR (map VarPatIn as_needed)
+ con2_pat = ConPatIn data_con_RDR (map VarPatIn bs_needed)
+
+ data_con_RDR = qual_orig_name data_con
+ con_arity = length tys_needed
+ as_needed = take con_arity as_RDRs
+ bs_needed = take con_arity bs_RDRs
+ tys_needed = dataConRawArgTys data_con
+
+ nested_compare_expr [ty] [a] [b]
+ = careful_compare_Case ty ltTag_Expr eqTag_Expr gtTag_Expr (HsVar a) (HsVar b)
+
+ nested_compare_expr (ty:tys) (a:as) (b:bs)
+ = let eq_expr = nested_compare_expr tys as bs
+ in careful_compare_Case ty ltTag_Expr eq_expr gtTag_Expr (HsVar a) (HsVar b)
+
+ default_rhs | null nullary_cons = impossible_Expr -- Keep desugarer from complaining about
+ -- inexhaustive patterns
+ | otherwise = eqTag_Expr -- Some nullary constructors;
+ -- Tags are equal, no args => return EQ
--------------------------------------------------------------------
defaulted = foldr1 AndMonoBinds [lt, le, ge, gt, max_, min_]
-lt = mk_easy_FunMonoBind lt_PN [a_Pat, b_Pat] [] (
- tagCmp_Case true_Expr false_Expr false_Expr a_Expr b_Expr)
-le = mk_easy_FunMonoBind le_PN [a_Pat, b_Pat] [] (
- tagCmp_Case true_Expr true_Expr false_Expr a_Expr b_Expr)
-ge = mk_easy_FunMonoBind ge_PN [a_Pat, b_Pat] [] (
- tagCmp_Case false_Expr true_Expr true_Expr a_Expr b_Expr)
-gt = mk_easy_FunMonoBind gt_PN [a_Pat, b_Pat] [] (
- tagCmp_Case false_Expr false_Expr true_Expr a_Expr b_Expr)
-
-max_ = mk_easy_FunMonoBind max_PN [a_Pat, b_Pat] [] (
- tagCmp_Case b_Expr a_Expr a_Expr a_Expr b_Expr)
-min_ = mk_easy_FunMonoBind min_PN [a_Pat, b_Pat] [] (
- tagCmp_Case a_Expr a_Expr b_Expr a_Expr b_Expr)
+lt = mk_easy_FunMonoBind mkGeneratedSrcLoc lt_RDR [a_Pat, b_Pat] [] (
+ compare_Case true_Expr false_Expr false_Expr a_Expr b_Expr)
+le = mk_easy_FunMonoBind mkGeneratedSrcLoc le_RDR [a_Pat, b_Pat] [] (
+ compare_Case true_Expr true_Expr false_Expr a_Expr b_Expr)
+ge = mk_easy_FunMonoBind mkGeneratedSrcLoc ge_RDR [a_Pat, b_Pat] [] (
+ compare_Case false_Expr true_Expr true_Expr a_Expr b_Expr)
+gt = mk_easy_FunMonoBind mkGeneratedSrcLoc gt_RDR [a_Pat, b_Pat] [] (
+ compare_Case false_Expr false_Expr true_Expr a_Expr b_Expr)
+
+max_ = mk_easy_FunMonoBind mkGeneratedSrcLoc max_RDR [a_Pat, b_Pat] [] (
+ compare_Case b_Expr a_Expr a_Expr a_Expr b_Expr)
+min_ = mk_easy_FunMonoBind mkGeneratedSrcLoc min_RDR [a_Pat, b_Pat] [] (
+ compare_Case a_Expr b_Expr b_Expr a_Expr b_Expr)
\end{code}
%************************************************************************
%* *
-\subsubsection[TcGenDeriv-Enum]{Generating @Enum@ instance declarations}
+\subsubsection{Generating @Enum@ instance declarations}
%* *
%************************************************************************
\begin{verbatim}
instance ... Enum (Foo ...) where
+ toEnum i = tag2con_Foo i
+
enumFrom a = map tag2con_Foo [con2tag_Foo a .. maxtag_Foo]
-- or, really...
For @enumFromTo@ and @enumFromThenTo@, we use the default methods.
\begin{code}
-gen_Enum_binds :: TyCon -> ProtoNameMonoBinds
+gen_Enum_binds :: TyCon -> RdrNameMonoBinds
gen_Enum_binds tycon
- = enum_from `AndMonoBinds` enum_from_then
+ = to_enum `AndMonoBinds`
+ enum_from `AndMonoBinds`
+ enum_from_then `AndMonoBinds`
+ from_enum
where
+ tycon_loc = getSrcLoc tycon
+
+ to_enum
+ = mk_easy_FunMonoBind tycon_loc toEnum_RDR [a_Pat] [] $
+ mk_easy_App (tag2con_RDR tycon) [a_RDR]
+
enum_from
- = mk_easy_FunMonoBind enumFrom_PN [a_Pat] [] (
- untag_Expr tycon [(a_PN, ah_PN)] (
- App (App (Var map_PN) (Var (tag2con_PN tycon))) (
- enum_from_to_Expr
- (App (Var mkInt_PN) (Var ah_PN))
- (Var (maxtag_PN tycon)))))
+ = mk_easy_FunMonoBind tycon_loc enumFrom_RDR [a_Pat] [] $
+ untag_Expr tycon [(a_RDR, ah_RDR)] $
+ HsApp (mk_easy_App map_RDR [tag2con_RDR tycon]) $
+ HsPar (enum_from_to_Expr
+ (mk_easy_App mkInt_RDR [ah_RDR])
+ (HsVar (maxtag_RDR tycon)))
enum_from_then
- = mk_easy_FunMonoBind enumFromThen_PN [a_Pat, b_Pat] [] (
- untag_Expr tycon [(a_PN, ah_PN), (b_PN, bh_PN)] (
- App (App (Var map_PN) (Var (tag2con_PN tycon))) (
- enum_from_then_to_Expr
- (App (Var mkInt_PN) (Var ah_PN))
- (App (Var mkInt_PN) (Var bh_PN))
- (Var (maxtag_PN tycon)))))
+ = mk_easy_FunMonoBind tycon_loc enumFromThen_RDR [a_Pat, b_Pat] [] $
+ untag_Expr tycon [(a_RDR, ah_RDR), (b_RDR, bh_RDR)] $
+ HsApp (mk_easy_App map_RDR [tag2con_RDR tycon]) $
+ HsPar (enum_from_then_to_Expr
+ (mk_easy_App mkInt_RDR [ah_RDR])
+ (mk_easy_App mkInt_RDR [bh_RDR])
+ (HsVar (maxtag_RDR tycon)))
+
+ from_enum
+ = mk_easy_FunMonoBind tycon_loc fromEnum_RDR [a_Pat] [] $
+ untag_Expr tycon [(a_RDR, ah_RDR)] $
+ (mk_easy_App mkInt_RDR [ah_RDR])
+\end{code}
+
+%************************************************************************
+%* *
+\subsubsection{Generating @Bounded@ instance declarations}
+%* *
+%************************************************************************
+
+\begin{code}
+gen_Bounded_binds tycon
+ = if isEnumerationTyCon tycon then
+ min_bound_enum `AndMonoBinds` max_bound_enum
+ else
+ ASSERT(length data_cons == 1)
+ min_bound_1con `AndMonoBinds` max_bound_1con
+ where
+ data_cons = tyConDataCons tycon
+ tycon_loc = getSrcLoc tycon
+
+ ----- enum-flavored: ---------------------------
+ min_bound_enum = mk_easy_FunMonoBind tycon_loc minBound_RDR [] [] (HsVar data_con_1_RDR)
+ max_bound_enum = mk_easy_FunMonoBind tycon_loc maxBound_RDR [] [] (HsVar data_con_N_RDR)
+
+ data_con_1 = head data_cons
+ data_con_N = last data_cons
+ data_con_1_RDR = qual_orig_name data_con_1
+ data_con_N_RDR = qual_orig_name data_con_N
+
+ ----- single-constructor-flavored: -------------
+ arity = argFieldCount data_con_1
+
+ min_bound_1con = mk_easy_FunMonoBind tycon_loc minBound_RDR [] [] $
+ mk_easy_App data_con_1_RDR (nOfThem arity minBound_RDR)
+ max_bound_1con = mk_easy_FunMonoBind tycon_loc maxBound_RDR [] [] $
+ mk_easy_App data_con_1_RDR (nOfThem arity maxBound_RDR)
\end{code}
%************************************************************************
%* *
-\subsubsection[TcGenDeriv-Ix]{Generating @Ix@ instance declarations}
+\subsubsection{Generating @Ix@ instance declarations}
%* *
%************************************************************************
-- or, really...
range (a, b)
= case (con2tag_Foo a) of { a# ->
- case (con2tag_Foo b) of { b# ->
+ case (con2tag_Foo b) of { b# ->
map tag2con_Foo (enumFromTo (I# a#) (I# b#))
}}
(p.~147).
\begin{code}
-gen_Ix_binds :: TyCon -> ProtoNameMonoBinds
+gen_Ix_binds :: TyCon -> RdrNameMonoBinds
gen_Ix_binds tycon
= if isEnumerationTyCon tycon
then enum_ixes
else single_con_ixes
where
- tycon_str = _UNPK_ (snd (getOrigName tycon))
+ tycon_str = getOccString tycon
+ tycon_loc = getSrcLoc tycon
--------------------------------------------------------------
enum_ixes = enum_range `AndMonoBinds`
enum_index `AndMonoBinds` enum_inRange
enum_range
- = mk_easy_FunMonoBind range_PN [TuplePatIn [a_Pat, b_Pat]] [] (
- untag_Expr tycon [(a_PN, ah_PN)] (
- untag_Expr tycon [(b_PN, bh_PN)] (
- App (App (Var map_PN) (Var (tag2con_PN tycon))) (
- enum_from_to_Expr
- (App (Var mkInt_PN) (Var ah_PN))
- (App (Var mkInt_PN) (Var bh_PN))
- ))))
+ = mk_easy_FunMonoBind tycon_loc range_RDR
+ [TuplePatIn [a_Pat, b_Pat] True{-boxed-}] [] $
+ untag_Expr tycon [(a_RDR, ah_RDR)] $
+ untag_Expr tycon [(b_RDR, bh_RDR)] $
+ HsApp (mk_easy_App map_RDR [tag2con_RDR tycon]) $
+ HsPar (enum_from_to_Expr
+ (mk_easy_App mkInt_RDR [ah_RDR])
+ (mk_easy_App mkInt_RDR [bh_RDR]))
enum_index
- = mk_easy_FunMonoBind index_PN [AsPatIn c_PN (TuplePatIn [a_Pat, b_Pat]), d_Pat] [] (
- If (App (App (Var inRange_PN) c_Expr) d_Expr) (
- untag_Expr tycon [(a_PN, ah_PN)] (
- untag_Expr tycon [(d_PN, dh_PN)] (
+ = mk_easy_FunMonoBind tycon_loc index_RDR
+ [AsPatIn c_RDR (TuplePatIn [a_Pat, b_Pat] True{-boxed-}),
+ d_Pat] [] (
+ HsIf (HsPar (mk_easy_App inRange_RDR [c_RDR, d_RDR])) (
+ untag_Expr tycon [(a_RDR, ah_RDR)] (
+ untag_Expr tycon [(d_RDR, dh_RDR)] (
let
- grhs = [OtherwiseGRHS (App (Var mkInt_PN) (Var c_PN)) mkGeneratedSrcLoc]
+ grhs = unguardedRHS (mk_easy_App mkInt_RDR [c_RDR]) tycon_loc
in
- Case (OpApp (Var dh_PN) (Var minusH_PN) (Var ah_PN)) {-of-}
- [PatMatch (VarPatIn c_PN)
+ HsCase
+ (genOpApp (HsVar dh_RDR) minusH_RDR (HsVar ah_RDR))
+ [PatMatch (VarPatIn c_RDR)
(GRHSMatch (GRHSsAndBindsIn grhs EmptyBinds))]
+ tycon_loc
))
) {-else-} (
- App (Var error_PN) (Lit (StringLit (_PK_ ("Ix."++tycon_str++".index: out of range\n"))))
- )
+ HsApp (HsVar error_RDR) (HsLit (HsString (_PK_ ("Ix."++tycon_str++".index: out of range\n"))))
)
+ tycon_loc)
enum_inRange
- = mk_easy_FunMonoBind inRange_PN [TuplePatIn [a_Pat, b_Pat], c_Pat] [] (
- untag_Expr tycon [(a_PN, ah_PN)] (
- untag_Expr tycon [(b_PN, bh_PN)] (
- untag_Expr tycon [(c_PN, ch_PN)] (
- If (OpApp (Var ch_PN) (Var geH_PN) (Var ah_PN)) (
- (OpApp (Var ch_PN) (Var leH_PN) (Var bh_PN))
+ = mk_easy_FunMonoBind tycon_loc inRange_RDR
+ [TuplePatIn [a_Pat, b_Pat] True{-boxed-}, c_Pat] [] (
+ untag_Expr tycon [(a_RDR, ah_RDR)] (
+ untag_Expr tycon [(b_RDR, bh_RDR)] (
+ untag_Expr tycon [(c_RDR, ch_RDR)] (
+ HsIf (genOpApp (HsVar ch_RDR) geH_RDR (HsVar ah_RDR)) (
+ (genOpApp (HsVar ch_RDR) leH_RDR (HsVar bh_RDR))
) {-else-} (
false_Expr
- )))))
+ ) tycon_loc))))
--------------------------------------------------------------
- single_con_ixes = single_con_range `AndMonoBinds`
- single_con_index `AndMonoBinds` single_con_inRange
+ single_con_ixes
+ = single_con_range `AndMonoBinds`
+ single_con_index `AndMonoBinds`
+ single_con_inRange
data_con
- = case maybeSingleConstructorTyCon tycon of -- just checking...
+ = case maybeTyConSingleCon tycon of -- just checking...
Nothing -> panic "get_Ix_binds"
- Just dc -> let
- (_, _, arg_tys, _) = getDataConSig dc
- in
- if any isPrimType arg_tys then
+ Just dc -> if (any isUnLiftedType (dataConRawArgTys dc)) then
error ("ERROR: Can't derive Ix for a single-constructor type with primitive argument types: "++tycon_str)
else
dc
- con_arity = getDataConArity data_con
- data_con_PN = Prel (WiredInVal data_con)
- con_pat xs = ConPatIn data_con_PN (map VarPatIn xs)
- con_expr xs = foldl App (Var data_con_PN) (map Var xs)
+ con_arity = argFieldCount data_con
+ data_con_RDR = qual_orig_name data_con
+
+ as_needed = take con_arity as_RDRs
+ bs_needed = take con_arity bs_RDRs
+ cs_needed = take con_arity cs_RDRs
- as_needed = take (getDataConArity data_con) as_PNs
- bs_needed = take (getDataConArity data_con) bs_PNs
- cs_needed = take (getDataConArity data_con) cs_PNs
+ con_pat xs = ConPatIn data_con_RDR (map VarPatIn xs)
+ con_expr = mk_easy_App data_con_RDR cs_needed
--------------------------------------------------------------
single_con_range
- = mk_easy_FunMonoBind range_PN [TuplePatIn [con_pat as_needed, con_pat bs_needed]] [] (
- ListComp (con_expr cs_needed) (zipWith3 mk_qual as_needed bs_needed cs_needed)
- )
+ = mk_easy_FunMonoBind tycon_loc range_RDR
+ [TuplePatIn [con_pat as_needed, con_pat bs_needed] True{-boxed-}] [] $
+ HsDo ListComp stmts tycon_loc
where
- mk_qual a b c = GeneratorQual (VarPatIn c)
- (App (Var range_PN) (ExplicitTuple [Var a, Var b]))
+ stmts = zipWith3Equal "single_con_range" mk_qual as_needed bs_needed cs_needed
+ ++
+ [ReturnStmt con_expr]
+
+ mk_qual a b c = BindStmt (VarPatIn c)
+ (HsApp (HsVar range_RDR)
+ (ExplicitTuple [HsVar a, HsVar b] True))
+ tycon_loc
----------------
single_con_index
- = mk_easy_FunMonoBind index_PN [TuplePatIn [con_pat as_needed, con_pat bs_needed], con_pat cs_needed] [range_size] (
- foldl mk_index (Lit (IntLit 0)) (zip3 as_needed bs_needed cs_needed))
+ = mk_easy_FunMonoBind tycon_loc index_RDR
+ [TuplePatIn [con_pat as_needed, con_pat bs_needed] True,
+ con_pat cs_needed] [range_size] (
+ foldl mk_index (HsLit (HsInt 0)) (zip3 as_needed bs_needed cs_needed))
where
mk_index multiply_by (l, u, i)
- =OpApp (
- (App (App (Var index_PN) (ExplicitTuple [Var l, Var u])) (Var i))
- ) (Var plus_PN) (
- OpApp (
- (App (Var rangeSize_PN) (ExplicitTuple [Var l, Var u]))
- ) (Var times_PN) multiply_by
+ = genOpApp (
+ (HsApp (HsApp (HsVar index_RDR)
+ (ExplicitTuple [HsVar l, HsVar u] True)) (HsVar i))
+ ) plus_RDR (
+ genOpApp (
+ (HsApp (HsVar rangeSize_RDR)
+ (ExplicitTuple [HsVar l, HsVar u] True))
+ ) times_RDR multiply_by
)
range_size
- = mk_easy_FunMonoBind rangeSize_PN [TuplePatIn [a_Pat, b_Pat]] [] (
- OpApp (
- (App (App (Var index_PN) (ExplicitTuple [a_Expr, b_Expr])) b_Expr)
- ) (Var plus_PN) (Lit (IntLit 1)))
+ = mk_easy_FunMonoBind tycon_loc rangeSize_RDR
+ [TuplePatIn [a_Pat, b_Pat] True] [] (
+ genOpApp (
+ (HsApp (HsApp (HsVar index_RDR)
+ (ExplicitTuple [a_Expr, b_Expr] True)) b_Expr)
+ ) plus_RDR (HsLit (HsInt 1)))
------------------
single_con_inRange
- = mk_easy_FunMonoBind inRange_PN [TuplePatIn [con_pat as_needed, con_pat bs_needed], con_pat cs_needed] [] (
- foldl1 and_Expr (zipWith3 in_range as_needed bs_needed cs_needed))
+ = mk_easy_FunMonoBind tycon_loc inRange_RDR
+ [TuplePatIn [con_pat as_needed, con_pat bs_needed] True,
+ con_pat cs_needed]
+ [] (
+ foldl1 and_Expr (zipWith3Equal "single_con_inRange" in_range as_needed bs_needed cs_needed))
where
- in_range a b c = App (App (Var inRange_PN) (ExplicitTuple [Var a, Var b])) (Var c)
+ in_range a b c = HsApp (HsApp (HsVar inRange_RDR)
+ (ExplicitTuple [HsVar a, HsVar b] True))
+ (HsVar c)
\end{code}
%************************************************************************
%* *
-\subsubsection[TcGenDeriv-Text]{Generating @Text@ instance declarations}
+\subsubsection{Generating @Read@ instance declarations}
%* *
%************************************************************************
-Deriving @Text@ is a pain. @show@ is commonly used; @read@ is rarely
-used---but we're supposed to generate massive amounts of code for it
-anyway. We provide a command-line flag to say ``Don't bother''
-(@OmitDerivedRead@).
-
-We just use the default methods for @showList@ and @readList@.
-
-Also: ignoring all the infix-ery mumbo jumbo (ToDo)
-
-The part of the Haskell report that deals with this (pages~147--151,
-1.2~version) is an adequate guide to what needs to be done. Note that
-this is where we may (eventually) use the fixity info that's been
-passed around.
+Ignoring all the infix-ery mumbo jumbo (ToDo)
\begin{code}
-gen_Text_binds :: [RenamedFixityDecl] -> Bool -> TyCon -> ProtoNameMonoBinds
+gen_Read_binds :: TyCon -> RdrNameMonoBinds
-gen_Text_binds fixities omit_derived_read tycon
- = if omit_derived_read
- then shows_prec
- else shows_prec `AndMonoBinds` reads_prec
+gen_Read_binds tycon
+ = reads_prec `AndMonoBinds` read_list
where
+ tycon_loc = getSrcLoc tycon
-----------------------------------------------------------------------
- shows_prec
- = mk_FunMonoBind showsPrec_PN (map pats_etc (getTyConDataCons tycon))
- where
- pats_etc data_con
- = let
- data_con_PN = Prel (WiredInVal data_con)
- bs_needed = take (getDataConArity data_con) bs_PNs
- con_pat = ConPatIn data_con_PN (map VarPatIn bs_needed)
- is_nullary_con = isNullaryDataCon data_con
-
- show_con
- = let (mod, nm) = getOrigName data_con
- space_maybe = if is_nullary_con then _NIL_ else SLIT(" ")
- in
- App (Var showString_PN) (Lit (StringLit (nm _APPEND_ space_maybe)))
-
- show_thingies = show_con : (spacified real_show_thingies)
-
- real_show_thingies
- = [ App (App (Var showsPrec_PN) (Lit (IntLit 10))) (Var b)
- | b <- bs_needed ]
- in
- if is_nullary_con then -- skip the showParen junk...
- ASSERT(null bs_needed)
- ([a_Pat, con_pat], show_con)
- else
- ([a_Pat, con_pat],
- showParen_Expr (OpApp a_Expr (Var ge_PN) (Lit (IntLit 10)))
- (nested_compose_Expr show_thingies))
- where
- spacified [] = []
- spacified [x] = [x]
- spacified (x:xs) = (x : (Var showSpace_PN) : spacified xs)
-
+ read_list = mk_easy_FunMonoBind tycon_loc readList_RDR [] []
+ (HsApp (HsVar readList___RDR) (HsPar (HsApp (HsVar readsPrec_RDR) (HsLit (HsInt 0)))))
-----------------------------------------------------------------------
- reads_prec -- ignore the infix game altogether
+ reads_prec
= let
read_con_comprehensions
- = map read_con (getTyConDataCons tycon)
+ = map read_con (tyConDataCons tycon)
in
- mk_easy_FunMonoBind readsPrec_PN [a_Pat, b_Pat] [] (
- foldl1 append_Expr read_con_comprehensions
+ mk_easy_FunMonoBind tycon_loc readsPrec_RDR [a_Pat, b_Pat] [] (
+ foldr1 append_Expr read_con_comprehensions
)
where
read_con data_con -- note: "b" is the string being "read"
= let
- data_con_PN = Prel (WiredInVal data_con)
- data_con_str= snd (getOrigName data_con)
- as_needed = take (getDataConArity data_con) as_PNs
- bs_needed = take (getDataConArity data_con) bs_PNs
- con_expr = foldl App (Var data_con_PN) (map Var as_needed)
- is_nullary_con = isNullaryDataCon data_con
-
+ data_con_RDR = qual_orig_name data_con
+ data_con_str= occNameString (getOccName data_con)
+ con_arity = argFieldCount data_con
+ con_expr = mk_easy_App data_con_RDR as_needed
+ nullary_con = con_arity == 0
+ labels = dataConFieldLabels data_con
+ lab_fields = length labels
+
+ as_needed = take con_arity as_RDRs
+ bs_needed
+ | lab_fields == 0 = take con_arity bs_RDRs
+ | otherwise = take (4*lab_fields + 1) bs_RDRs
+ -- (label, '=' and field)*n, (n-1)*',' + '{' + '}'
con_qual
- = GeneratorQual
- (TuplePatIn [LitPatIn (StringLit data_con_str), d_Pat])
- (App (Var lex_PN) c_Expr)
-
- field_quals = snd (mapAccumL mk_qual d_Expr (as_needed `zip` bs_needed))
-
+ = BindStmt
+ (TuplePatIn [LitPatIn (HsString data_con_str),
+ d_Pat] True)
+ (HsApp (HsVar lex_RDR) c_Expr)
+ tycon_loc
+
+ str_qual str res draw_from
+ = BindStmt
+ (TuplePatIn [LitPatIn (HsString str), VarPatIn res] True)
+ (HsApp (HsVar lex_RDR) draw_from)
+ tycon_loc
+
+ read_label f
+ = let nm = occNameString (getOccName (fieldLabelName f))
+ in
+ [str_qual nm, str_qual SLIT("=")]
+ -- There might be spaces between the label and '='
+
+ field_quals
+ | lab_fields == 0 =
+ snd (mapAccumL mk_qual
+ d_Expr
+ (zipWithEqual "as_needed"
+ (\ con_field draw_from -> (mk_read_qual con_field,
+ draw_from))
+ as_needed bs_needed))
+ | otherwise =
+ snd $
+ mapAccumL mk_qual d_Expr
+ (zipEqual "bs_needed"
+ ((str_qual (SLIT("{")):
+ concat (
+ intersperse ([str_qual (_CONS_ ',' _NIL_)]) $
+ zipWithEqual
+ "field_quals"
+ (\ as b -> as ++ [b])
+ -- The labels
+ (map read_label labels)
+ -- The fields
+ (map mk_read_qual as_needed))) ++ [str_qual (SLIT("}"))])
+ bs_needed)
+
+ mk_qual draw_from (f, str_left)
+ = (HsVar str_left, -- what to draw from down the line...
+ f str_left draw_from)
+
+ mk_read_qual con_field res draw_from =
+ BindStmt
+ (TuplePatIn [VarPatIn con_field, VarPatIn res] True)
+ (HsApp (HsApp (HsVar readsPrec_RDR) (HsLit (HsInt 10))) draw_from)
+ tycon_loc
+
+ result_expr = ExplicitTuple [con_expr, if null bs_needed
+ then d_Expr
+ else HsVar (last bs_needed)] True
+
+ stmts = con_qual:field_quals ++ [ReturnStmt result_expr]
+
read_paren_arg
- = if is_nullary_con then -- must be False (parens are surely optional)
+ = if nullary_con then -- must be False (parens are surely optional)
false_Expr
else -- parens depend on precedence...
- OpApp a_Expr (Var gt_PN) (Lit (IntLit 9))
+ HsPar (genOpApp a_Expr gt_RDR (HsLit (HsInt 9)))
in
- App (
- readParen_Expr read_paren_arg (
- Lam (mk_easy_Match [c_Pat] [] (
- ListComp (ExplicitTuple [con_expr,
- if null bs_needed then d_Expr else Var (last bs_needed)])
- (con_qual : field_quals)))
- )) (Var b_PN)
- where
- mk_qual draw_from (con_field, str_left)
- = (Var str_left, -- what to draw from down the line...
- GeneratorQual
- (TuplePatIn [VarPatIn con_field, VarPatIn str_left])
- (App (App (Var readsPrec_PN) (Lit (IntLit 10))) draw_from))
+ HsApp (
+ readParen_Expr read_paren_arg $ HsPar $
+ HsLam (mk_easy_Match tycon_loc [c_Pat] [] $
+ HsDo ListComp stmts tycon_loc)
+ ) (HsVar b_RDR)
+
\end{code}
%************************************************************************
%* *
-\subsubsection[TcGenDeriv-Binary]{Generating @Binary@ instance declarations}
+\subsubsection{Generating @Show@ instance declarations}
%* *
%************************************************************************
-ToDo: NOT DONE YET.
+Ignoring all the infix-ery mumbo jumbo (ToDo)
\begin{code}
-gen_Binary_binds :: TyCon -> ProtoNameMonoBinds
+gen_Show_binds :: TyCon -> RdrNameMonoBinds
+
+gen_Show_binds tycon
+ = shows_prec `AndMonoBinds` show_list
+ where
+ tycon_loc = getSrcLoc tycon
+ -----------------------------------------------------------------------
+ show_list = mk_easy_FunMonoBind tycon_loc showList_RDR [] []
+ (HsApp (HsVar showList___RDR) (HsPar (HsApp (HsVar showsPrec_RDR) (HsLit (HsInt 0)))))
+ -----------------------------------------------------------------------
+ shows_prec
+ = mk_FunMonoBind tycon_loc showsPrec_RDR (map pats_etc (tyConDataCons tycon))
+ where
+ pats_etc data_con
+ = let
+ data_con_RDR = qual_orig_name data_con
+ con_arity = argFieldCount data_con
+ bs_needed = take con_arity bs_RDRs
+ con_pat = ConPatIn data_con_RDR (map VarPatIn bs_needed)
+ nullary_con = con_arity == 0
+ labels = dataConFieldLabels data_con
+ lab_fields = length labels
+
+ show_con
+ = let nm = occNameString (getOccName data_con)
+ space_ocurly_maybe
+ | nullary_con = _NIL_
+ | lab_fields == 0 = SLIT(" ")
+ | otherwise = SLIT("{")
-gen_Binary_binds tycon
- = panic "gen_Binary_binds"
+ in
+ mk_showString_app (nm _APPEND_ space_ocurly_maybe)
+
+ show_all con fs
+ = let
+ ccurly_maybe
+ | lab_fields > 0 = [mk_showString_app (SLIT("}"))]
+ | otherwise = []
+ in
+ con:fs ++ ccurly_maybe
+
+ show_thingies = show_all show_con real_show_thingies_with_labs
+
+ show_label l
+ = let nm = occNameString (getOccName (fieldLabelName l))
+ in
+ mk_showString_app (nm _APPEND_ SLIT("="))
+
+ mk_showString_app str = HsApp (HsVar showString_RDR)
+ (HsLit (HsString str))
+
+ real_show_thingies =
+ [ HsApp (HsApp (HsVar showsPrec_RDR) (HsLit (HsInt 10))) (HsVar b)
+ | b <- bs_needed ]
+
+ real_show_thingies_with_labs
+ | lab_fields == 0 = intersperse (HsVar showSpace_RDR) real_show_thingies
+ | otherwise = --Assumption: no of fields == no of labelled fields
+ -- (and in same order)
+ concat $
+ intersperse ([mk_showString_app (_CONS_ ',' _NIL_)]) $ -- Using SLIT()s containing ,s spells trouble.
+ zipWithEqual "gen_Show_binds"
+ (\ a b -> [a,b])
+ (map show_label labels)
+ real_show_thingies
+
+
+ in
+ if nullary_con then -- skip the showParen junk...
+ ASSERT(null bs_needed)
+ ([a_Pat, con_pat], show_con)
+ else
+ ([a_Pat, con_pat],
+ showParen_Expr (HsPar (genOpApp a_Expr ge_RDR (HsLit (HsInt 10))))
+ (HsPar (nested_compose_Expr show_thingies)))
\end{code}
%************************************************************************
%* *
-\subsection[TcGenDeriv-con2tag-tag2con]{Generating extra binds (@con2tag@ and @tag2con@)}
+\subsection{Generating extra binds (@con2tag@ and @tag2con@)}
%* *
%************************************************************************
fiddling around.
\begin{code}
+data TagThingWanted
+ = GenCon2Tag | GenTag2Con | GenMaxTag
+
gen_tag_n_con_monobind
- :: (ProtoName, Name, -- (proto)Name for the thing in question
+ :: (RdrName, -- (proto)Name for the thing in question
TyCon, -- tycon in question
TagThingWanted)
- -> ProtoNameMonoBinds
+ -> RdrNameMonoBinds
-gen_tag_n_con_monobind (pn, _, tycon, GenCon2Tag)
- = mk_FunMonoBind pn (map mk_stuff (getTyConDataCons tycon))
+gen_tag_n_con_monobind (rdr_name, tycon, GenCon2Tag)
+ = mk_FunMonoBind (getSrcLoc tycon) rdr_name (map mk_stuff (tyConDataCons tycon))
where
- mk_stuff :: DataCon -> ([ProtoNamePat], ProtoNameExpr)
+ mk_stuff :: DataCon -> ([RdrNamePat], RdrNameHsExpr)
mk_stuff var
- = ASSERT(isDataCon var)
- ([pat], Lit (IntPrimLit (toInteger ((getDataConTag var) - fIRST_TAG))))
+ = ([pat], HsLit (HsIntPrim (toInteger ((dataConTag var) - fIRST_TAG))))
where
- pat = ConPatIn var_PN (nOfThem (getDataConArity var) WildPatIn)
- var_PN = Prel (WiredInVal var)
+ pat = ConPatIn var_RDR (nOfThem (argFieldCount var) WildPatIn)
+ var_RDR = qual_orig_name var
-gen_tag_n_con_monobind (pn, _, tycon, GenTag2Con)
- = mk_FunMonoBind pn (map mk_stuff (getTyConDataCons tycon))
+gen_tag_n_con_monobind (rdr_name, tycon, GenTag2Con)
+ = mk_FunMonoBind (getSrcLoc tycon) rdr_name (map mk_stuff (tyConDataCons tycon) ++
+ [([WildPatIn], impossible_Expr)])
where
- mk_stuff :: DataCon -> ([ProtoNamePat], ProtoNameExpr)
-
- mk_stuff var
- = ASSERT(isDataCon var)
- ([lit_pat], Var var_PN)
+ mk_stuff :: DataCon -> ([RdrNamePat], RdrNameHsExpr)
+ mk_stuff var = ([lit_pat], HsVar var_RDR)
where
- lit_pat = ConPatIn mkInt_PN [LitPatIn (IntPrimLit (toInteger ((getDataConTag var) - fIRST_TAG)))]
- var_PN = Prel (WiredInVal var)
+ lit_pat = ConPatIn mkInt_RDR [LitPatIn (HsIntPrim (toInteger ((dataConTag var) - fIRST_TAG)))]
+ var_RDR = qual_orig_name var
-gen_tag_n_con_monobind (pn, _, tycon, GenMaxTag)
- = mk_easy_FunMonoBind pn [] [] (App (Var mkInt_PN) (Lit (IntPrimLit max_tag)))
+gen_tag_n_con_monobind (rdr_name, tycon, GenMaxTag)
+ = mk_easy_FunMonoBind (getSrcLoc tycon)
+ rdr_name [] [] (HsApp (HsVar mkInt_RDR) (HsLit (HsIntPrim max_tag)))
where
- max_tag = case (getTyConDataCons tycon) of
+ max_tag = case (tyConDataCons tycon) of
data_cons -> toInteger ((length data_cons) - fIRST_TAG)
+
\end{code}
%************************************************************************
%* *
-\subsection[TcGenDeriv-bind-utils]{Utility bits for generating bindings}
+\subsection{Utility bits for generating bindings}
%* *
%************************************************************************
\end{verbatim}
\begin{code}
-mk_easy_FunMonoBind :: ProtoName -> [ProtoNamePat]
- -> [ProtoNameMonoBinds] -> ProtoNameExpr
- -> ProtoNameMonoBinds
+mk_easy_FunMonoBind :: SrcLoc -> RdrName -> [RdrNamePat]
+ -> [RdrNameMonoBinds] -> RdrNameHsExpr
+ -> RdrNameMonoBinds
-mk_easy_FunMonoBind fun pats binds expr
- = FunMonoBind fun [mk_easy_Match pats binds expr] mkGeneratedSrcLoc
+mk_easy_FunMonoBind loc fun pats binds expr
+ = FunMonoBind fun False{-not infix-} [mk_easy_Match loc pats binds expr] loc
-mk_easy_Match pats binds expr
- = foldr PatMatch
- (GRHSMatch (GRHSsAndBindsIn [OtherwiseGRHS expr mkGeneratedSrcLoc] (mkbind binds)))
- pats
+mk_easy_Match loc pats binds expr
+ = mk_match loc pats expr (mkbind binds)
where
- mkbind [] = EmptyBinds
- mkbind bs = SingleBind (RecBind (foldr1 AndMonoBinds bs))
+ mkbind [] = EmptyBinds
+ mkbind bs = MonoBind (foldr1 AndMonoBinds bs) [] Recursive
-- The renamer expects everything in its input to be a
-- "recursive" MonoBinds, and it is its job to sort things out
-- from there.
-mk_FunMonoBind :: ProtoName
- -> [([ProtoNamePat], ProtoNameExpr)]
- -> ProtoNameMonoBinds
+mk_FunMonoBind :: SrcLoc -> RdrName
+ -> [([RdrNamePat], RdrNameHsExpr)]
+ -> RdrNameMonoBinds
+
+mk_FunMonoBind loc fun [] = panic "TcGenDeriv:mk_FunMonoBind"
+mk_FunMonoBind loc fun pats_and_exprs
+ = FunMonoBind fun False{-not infix-}
+ [ mk_match loc p e EmptyBinds | (p,e) <-pats_and_exprs ]
+ loc
-mk_FunMonoBind fun [] = panic "TcGenDeriv:mk_FunMonoBind"
-mk_FunMonoBind fun pats_and_exprs
- = FunMonoBind fun (map mk_match pats_and_exprs) mkGeneratedSrcLoc
+mk_match loc pats expr binds
+ = foldr PatMatch
+ (GRHSMatch (GRHSsAndBindsIn (unguardedRHS expr loc) binds))
+ (map paren pats)
where
- mk_match (pats, expr)
- = foldr PatMatch
- (GRHSMatch (GRHSsAndBindsIn [OtherwiseGRHS expr mkGeneratedSrcLoc] EmptyBinds))
- pats
+ paren p@(VarPatIn _) = p
+ paren other_p = ParPatIn other_p
\end{code}
\begin{code}
-tagCmp_Case, cmp_eq_Expr ::
- ProtoNameExpr -> ProtoNameExpr -> ProtoNameExpr
- -> ProtoNameExpr -> ProtoNameExpr
- -> ProtoNameExpr
-tagCmp_gen_Case ::
- ProtoName
- -> ProtoNameExpr -> ProtoNameExpr -> ProtoNameExpr
- -> ProtoNameExpr -> ProtoNameExpr
- -> ProtoNameExpr
-careful_tagCmp_Case :: -- checks for primitive types...
- UniType
- -> ProtoNameExpr -> ProtoNameExpr -> ProtoNameExpr
- -> ProtoNameExpr -> ProtoNameExpr
- -> ProtoNameExpr
-
-tagCmp_Case = tagCmp_gen_Case tagCmp_PN
-cmp_eq_Expr = tagCmp_gen_Case cmp_eq_PN
-
-tagCmp_gen_Case fun lt eq gt a b
- = Case (App (App (Var fun) a) b) {-of-}
- [PatMatch (ConPatIn lt_TAG_PN [])
- (GRHSMatch (GRHSsAndBindsIn [OtherwiseGRHS lt mkGeneratedSrcLoc] EmptyBinds)),
-
- PatMatch (ConPatIn eq_TAG_PN [])
- (GRHSMatch (GRHSsAndBindsIn [OtherwiseGRHS eq mkGeneratedSrcLoc] EmptyBinds)),
-
- PatMatch (ConPatIn gt_TAG_PN [])
- (GRHSMatch (GRHSsAndBindsIn [OtherwiseGRHS gt mkGeneratedSrcLoc] EmptyBinds))]
-
-careful_tagCmp_Case ty lt eq gt a b
- = if not (isPrimType ty) then
- tagCmp_gen_Case tagCmp_PN lt eq gt a b
+mk_easy_App f xs = foldl HsApp (HsVar f) (map HsVar xs)
+\end{code}
+
+ToDo: Better SrcLocs.
+
+\begin{code}
+compare_Case, cmp_eq_Expr ::
+ RdrNameHsExpr -> RdrNameHsExpr -> RdrNameHsExpr
+ -> RdrNameHsExpr -> RdrNameHsExpr
+ -> RdrNameHsExpr
+compare_gen_Case ::
+ RdrName
+ -> RdrNameHsExpr -> RdrNameHsExpr -> RdrNameHsExpr
+ -> RdrNameHsExpr -> RdrNameHsExpr
+ -> RdrNameHsExpr
+careful_compare_Case :: -- checks for primitive types...
+ Type
+ -> RdrNameHsExpr -> RdrNameHsExpr -> RdrNameHsExpr
+ -> RdrNameHsExpr -> RdrNameHsExpr
+ -> RdrNameHsExpr
+
+compare_Case = compare_gen_Case compare_RDR
+cmp_eq_Expr = compare_gen_Case cmp_eq_RDR
+
+compare_gen_Case fun lt eq gt a b
+ = HsCase (HsPar (HsApp (HsApp (HsVar fun) a) b)) {-of-}
+ [PatMatch (ConPatIn ltTag_RDR [])
+ (GRHSMatch (GRHSsAndBindsIn (unguardedRHS lt mkGeneratedSrcLoc) EmptyBinds)),
+
+ PatMatch (ConPatIn eqTag_RDR [])
+ (GRHSMatch (GRHSsAndBindsIn (unguardedRHS eq mkGeneratedSrcLoc) EmptyBinds)),
+
+ PatMatch (ConPatIn gtTag_RDR [])
+ (GRHSMatch (GRHSsAndBindsIn (unguardedRHS gt mkGeneratedSrcLoc) EmptyBinds))]
+ mkGeneratedSrcLoc
+
+careful_compare_Case ty lt eq gt a b
+ = if not (isUnboxedType ty) then
+ compare_gen_Case compare_RDR lt eq gt a b
else -- we have to do something special for primitive things...
- If (OpApp a (Var relevant_eq_op) b)
- eq
- (If (OpApp a (Var relevant_lt_op) b) lt gt)
+ HsIf (genOpApp a relevant_eq_op b)
+ eq
+ (HsIf (genOpApp a relevant_lt_op b) lt gt mkGeneratedSrcLoc)
+ mkGeneratedSrcLoc
where
- relevant_eq_op = assoc "careful_tagCmp_Case" eq_op_tbl ty
- relevant_lt_op = assoc "careful_tagCmp_Case" lt_op_tbl ty
-
-eq_op_tbl = [
- (charPrimTy, Prel (WiredInVal (primOpId CharEqOp))),
- (intPrimTy, Prel (WiredInVal (primOpId IntEqOp))),
- (wordPrimTy, Prel (WiredInVal (primOpId WordEqOp))),
- (addrPrimTy, Prel (WiredInVal (primOpId AddrEqOp))),
- (floatPrimTy, Prel (WiredInVal (primOpId FloatEqOp))),
- (doublePrimTy, Prel (WiredInVal (primOpId DoubleEqOp))) ]
-
-lt_op_tbl = [
- (charPrimTy, Prel (WiredInVal (primOpId CharLtOp))),
- (intPrimTy, Prel (WiredInVal (primOpId IntLtOp))),
- (wordPrimTy, Prel (WiredInVal (primOpId WordLtOp))),
- (addrPrimTy, Prel (WiredInVal (primOpId AddrLtOp))),
- (floatPrimTy, Prel (WiredInVal (primOpId FloatLtOp))),
- (doublePrimTy, Prel (WiredInVal (primOpId DoubleLtOp))) ]
+ relevant_eq_op = assoc_ty_id eq_op_tbl ty
+ relevant_lt_op = assoc_ty_id lt_op_tbl ty
+
+assoc_ty_id tyids ty
+ = if null res then panic "assoc_ty"
+ else head res
+ where
+ res = [id | (ty',id) <- tyids, ty == ty']
+
+eq_op_tbl =
+ [(charPrimTy, eqH_Char_RDR)
+ ,(intPrimTy, eqH_Int_RDR)
+ ,(wordPrimTy, eqH_Word_RDR)
+ ,(addrPrimTy, eqH_Addr_RDR)
+ ,(floatPrimTy, eqH_Float_RDR)
+ ,(doublePrimTy, eqH_Double_RDR)
+ ]
+
+lt_op_tbl =
+ [(charPrimTy, ltH_Char_RDR)
+ ,(intPrimTy, ltH_Int_RDR)
+ ,(wordPrimTy, ltH_Word_RDR)
+ ,(addrPrimTy, ltH_Addr_RDR)
+ ,(floatPrimTy, ltH_Float_RDR)
+ ,(doublePrimTy, ltH_Double_RDR)
+ ]
-----------------------------------------------------------------------
-and_Expr, append_Expr :: ProtoNameExpr -> ProtoNameExpr -> ProtoNameExpr
+and_Expr, append_Expr :: RdrNameHsExpr -> RdrNameHsExpr -> RdrNameHsExpr
-and_Expr a b = OpApp a (Var and_PN) b
-append_Expr a b = OpApp a (Var append_PN) b
+and_Expr a b = genOpApp a and_RDR b
+append_Expr a b = genOpApp a append_RDR b
-----------------------------------------------------------------------
-eq_Expr :: UniType -> ProtoNameExpr -> ProtoNameExpr -> ProtoNameExpr
+eq_Expr :: Type -> RdrNameHsExpr -> RdrNameHsExpr -> RdrNameHsExpr
eq_Expr ty a b
- = if not (isPrimType ty) then
- OpApp a (Var eq_PN) b
+ = if not (isUnboxedType ty) then
+ genOpApp a eq_RDR b
else -- we have to do something special for primitive things...
- OpApp a (Var relevant_eq_op) b
+ genOpApp a relevant_eq_op b
where
- relevant_eq_op = assoc "eq_Expr" eq_op_tbl ty
+ relevant_eq_op = assoc_ty_id eq_op_tbl ty
+\end{code}
+
+\begin{code}
+argFieldCount :: DataCon -> Int -- Works on data and newtype constructors
+argFieldCount con = length (dataConRawArgTys con)
\end{code}
\begin{code}
-untag_Expr :: TyCon -> [(ProtoName, ProtoName)] -> ProtoNameExpr -> ProtoNameExpr
+untag_Expr :: TyCon -> [(RdrName, RdrName)] -> RdrNameHsExpr -> RdrNameHsExpr
untag_Expr tycon [] expr = expr
untag_Expr tycon ((untag_this, put_tag_here) : more) expr
- = Case (App (con2tag_Expr tycon) (Var untag_this)) {-of-}
+ = HsCase (HsPar (HsApp (con2tag_Expr tycon) (HsVar untag_this))) {-of-}
[PatMatch (VarPatIn put_tag_here)
(GRHSMatch (GRHSsAndBindsIn grhs EmptyBinds))]
+ mkGeneratedSrcLoc
where
- grhs = [OtherwiseGRHS (untag_Expr tycon more expr) mkGeneratedSrcLoc]
+ grhs = unguardedRHS (untag_Expr tycon more expr) mkGeneratedSrcLoc
-cmp_tags_Expr :: ProtoName -- Comparison op
- -> ProtoName -> ProtoName -- Things to compare
- -> ProtoNameExpr -- What to return if true
- -> ProtoNameExpr -- What to return if false
- -> ProtoNameExpr
+cmp_tags_Expr :: RdrName -- Comparison op
+ -> RdrName -> RdrName -- Things to compare
+ -> RdrNameHsExpr -- What to return if true
+ -> RdrNameHsExpr -- What to return if false
+ -> RdrNameHsExpr
-cmp_tags_Expr op a b true_case false_case
- = If (OpApp (Var a) (Var op) (Var b)) true_case false_case
+cmp_tags_Expr op a b true_case false_case
+ = HsIf (genOpApp (HsVar a) op (HsVar b)) true_case false_case mkGeneratedSrcLoc
enum_from_to_Expr
- :: ProtoNameExpr -> ProtoNameExpr
- -> ProtoNameExpr
+ :: RdrNameHsExpr -> RdrNameHsExpr
+ -> RdrNameHsExpr
enum_from_then_to_Expr
- :: ProtoNameExpr -> ProtoNameExpr -> ProtoNameExpr
- -> ProtoNameExpr
+ :: RdrNameHsExpr -> RdrNameHsExpr -> RdrNameHsExpr
+ -> RdrNameHsExpr
-enum_from_to_Expr f t2 = App (App (Var enumFromTo_PN) f) t2
-enum_from_then_to_Expr f t t2 = App (App (App (Var enumFromThenTo_PN) f) t) t2
+enum_from_to_Expr f t2 = HsApp (HsApp (HsVar enumFromTo_RDR) f) t2
+enum_from_then_to_Expr f t t2 = HsApp (HsApp (HsApp (HsVar enumFromThenTo_RDR) f) t) t2
showParen_Expr, readParen_Expr
- :: ProtoNameExpr -> ProtoNameExpr
- -> ProtoNameExpr
+ :: RdrNameHsExpr -> RdrNameHsExpr
+ -> RdrNameHsExpr
-showParen_Expr e1 e2 = App (App (Var showParen_PN) e1) e2
-readParen_Expr e1 e2 = App (App (Var readParen_PN) e1) e2
+showParen_Expr e1 e2 = HsApp (HsApp (HsVar showParen_RDR) e1) e2
+readParen_Expr e1 e2 = HsApp (HsApp (HsVar readParen_RDR) e1) e2
-nested_compose_Expr :: [ProtoNameExpr] -> ProtoNameExpr
+nested_compose_Expr :: [RdrNameHsExpr] -> RdrNameHsExpr
-nested_compose_Expr [e] = e
+nested_compose_Expr [e] = parenify e
nested_compose_Expr (e:es)
- = App (App (Var compose_PN) e) (nested_compose_Expr es)
-\end{code}
+ = HsApp (HsApp (HsVar compose_RDR) (parenify e)) (nested_compose_Expr es)
-\begin{code}
-a_PN = Unk SLIT("a")
-b_PN = Unk SLIT("b")
-c_PN = Unk SLIT("c")
-d_PN = Unk SLIT("d")
-ah_PN = Unk SLIT("a#")
-bh_PN = Unk SLIT("b#")
-ch_PN = Unk SLIT("c#")
-dh_PN = Unk SLIT("d#")
-cmp_eq_PN = Unk SLIT("cmp_eq")
-rangeSize_PN = Unk SLIT("rangeSize")
-
-as_PNs = [ Unk (_PK_ ("a"++show i)) | i <- [(1::Int) .. ] ]
-bs_PNs = [ Unk (_PK_ ("b"++show i)) | i <- [(1::Int) .. ] ]
-cs_PNs = [ Unk (_PK_ ("c"++show i)) | i <- [(1::Int) .. ] ]
-
-eq_PN = prelude_method SLIT("Eq") SLIT("==")
-ne_PN = prelude_method SLIT("Eq") SLIT("/=")
-le_PN = prelude_method SLIT("Ord") SLIT("<=")
-lt_PN = prelude_method SLIT("Ord") SLIT("<")
-ge_PN = prelude_method SLIT("Ord") SLIT(">=")
-gt_PN = prelude_method SLIT("Ord") SLIT(">")
-max_PN = prelude_method SLIT("Ord") SLIT("max")
-min_PN = prelude_method SLIT("Ord") SLIT("min")
-tagCmp_PN = prelude_method SLIT("Ord") SLIT("_tagCmp")
-lt_TAG_PN = Prel (WiredInVal ltPrimDataCon)
-eq_TAG_PN = Prel (WiredInVal eqPrimDataCon)
-gt_TAG_PN = Prel (WiredInVal gtPrimDataCon)
-enumFrom_PN = prelude_method SLIT("Enum") SLIT("enumFrom")
-enumFromTo_PN = prelude_method SLIT("Enum") SLIT("enumFromTo")
-enumFromThen_PN = prelude_method SLIT("Enum") SLIT("enumFromThen")
-enumFromThenTo_PN= prelude_method SLIT("Enum") SLIT("enumFromThenTo")
-range_PN = prelude_method SLIT("Ix") SLIT("range")
-index_PN = prelude_method SLIT("Ix") SLIT("index")
-inRange_PN = prelude_method SLIT("Ix") SLIT("inRange")
-readsPrec_PN = prelude_method SLIT("Text") SLIT("readsPrec")
-showsPrec_PN = prelude_method SLIT("Text") SLIT("showsPrec")
-plus_PN = prelude_method SLIT("Num") SLIT("+")
-times_PN = prelude_method SLIT("Num") SLIT("*")
-
-false_PN = Prel (WiredInVal falseDataCon)
-true_PN = Prel (WiredInVal trueDataCon)
-eqH_PN = Prel (WiredInVal (primOpId IntEqOp))
-geH_PN = Prel (WiredInVal (primOpId IntGeOp))
-leH_PN = Prel (WiredInVal (primOpId IntLeOp))
-ltH_PN = Prel (WiredInVal (primOpId IntLtOp))
-minusH_PN = Prel (WiredInVal (primOpId IntSubOp))
-and_PN = prelude_val pRELUDE SLIT("&&")
-not_PN = prelude_val pRELUDE SLIT("not")
-append_PN = prelude_val pRELUDE_LIST SLIT("++")
-map_PN = prelude_val pRELUDE_LIST SLIT("map")
-compose_PN = prelude_val pRELUDE SLIT(".")
-mkInt_PN = Prel (WiredInVal intDataCon)
-error_PN = Prel (WiredInVal eRROR_ID)
-showSpace_PN = prelude_val pRELUDE_TEXT SLIT("showSpace__") -- not quite std
-showString_PN = prelude_val pRELUDE_TEXT SLIT("showString")
-showParen_PN = prelude_val pRELUDE_TEXT SLIT("showParen")
-readParen_PN = prelude_val pRELUDE_TEXT SLIT("readParen")
-lex_PN = prelude_val pRELUDE_TEXT SLIT("lex")
-
-prelude_val m s = Imp m s [m] s
-prelude_method c o = Imp pRELUDE_CORE o [pRELUDE_CORE] o -- class not used...
-
-a_Expr = Var a_PN
-b_Expr = Var b_PN
-c_Expr = Var c_PN
-d_Expr = Var d_PN
-lt_TAG_Expr = Var lt_TAG_PN
-eq_TAG_Expr = Var eq_TAG_PN
-gt_TAG_Expr = Var gt_TAG_PN
-false_Expr = Var false_PN
-true_Expr = Var true_PN
-
-con2tag_Expr tycon = Var (con2tag_PN tycon)
-
-a_Pat = VarPatIn a_PN
-b_Pat = VarPatIn b_PN
-c_Pat = VarPatIn c_PN
-d_Pat = VarPatIn d_PN
-\end{code}
+-- impossible_Expr is used in case RHSs that should never happen.
+-- We generate these to keep the desugarer from complaining that they *might* happen!
+impossible_Expr = HsApp (HsVar error_RDR) (HsLit (HsString (_PK_ "Urk! in TcGenDeriv")))
-%************************************************************************
-%* *
-\subsection[TcGenDeriv-misc-utils]{Miscellaneous utility bits for deriving}
-%* *
-%************************************************************************
+parenify e@(HsVar _) = e
+parenify e = HsPar e
+
+-- genOpApp wraps brackets round the operator application, so that the
+-- renamer won't subsequently try to re-associate it.
+-- For some reason the renamer doesn't reassociate it right, and I can't
+-- be bothered to find out why just now.
+
+genOpApp e1 op e2 = mkOpApp e1 op e2
+\end{code}
\begin{code}
-{- UNUSED:
-hasCon2TagFun :: TyCon -> Bool
-hasCon2TagFun tycon
- = preludeClassDerivedFor ordClassKey tycon
- || isEnumerationTyConMostly tycon
-
-hasTag2ConFun :: TyCon -> Bool
-hasTag2ConFun tycon
- = isEnumerationTyCon tycon
- && (preludeClassDerivedFor ixClassKey tycon
- || preludeClassDerivedFor enumClassKey tycon)
--}
+qual_orig_name n = case modAndOcc n of { (m,n) -> Qual m n HiFile }
+
+a_RDR = varUnqual SLIT("a")
+b_RDR = varUnqual SLIT("b")
+c_RDR = varUnqual SLIT("c")
+d_RDR = varUnqual SLIT("d")
+ah_RDR = varUnqual SLIT("a#")
+bh_RDR = varUnqual SLIT("b#")
+ch_RDR = varUnqual SLIT("c#")
+dh_RDR = varUnqual SLIT("d#")
+cmp_eq_RDR = varUnqual SLIT("cmp_eq")
+rangeSize_RDR = varUnqual SLIT("rangeSize")
+
+as_RDRs = [ varUnqual (_PK_ ("a"++show i)) | i <- [(1::Int) .. ] ]
+bs_RDRs = [ varUnqual (_PK_ ("b"++show i)) | i <- [(1::Int) .. ] ]
+cs_RDRs = [ varUnqual (_PK_ ("c"++show i)) | i <- [(1::Int) .. ] ]
+
+a_Expr = HsVar a_RDR
+b_Expr = HsVar b_RDR
+c_Expr = HsVar c_RDR
+d_Expr = HsVar d_RDR
+ltTag_Expr = HsVar ltTag_RDR
+eqTag_Expr = HsVar eqTag_RDR
+gtTag_Expr = HsVar gtTag_RDR
+false_Expr = HsVar false_RDR
+true_Expr = HsVar true_RDR
+
+con2tag_Expr tycon = HsVar (con2tag_RDR tycon)
+
+a_Pat = VarPatIn a_RDR
+b_Pat = VarPatIn b_RDR
+c_Pat = VarPatIn c_RDR
+d_Pat = VarPatIn d_RDR
+
+con2tag_RDR, tag2con_RDR, maxtag_RDR :: TyCon -> RdrName
+
+con2tag_RDR tycon = varUnqual (SLIT("con2tag_") _APPEND_ occNameString (getOccName tycon) _APPEND_ SLIT("#"))
+tag2con_RDR tycon = varUnqual (SLIT("tag2con_") _APPEND_ occNameString (getOccName tycon) _APPEND_ SLIT("#"))
+maxtag_RDR tycon = varUnqual (SLIT("maxtag_") _APPEND_ occNameString (getOccName tycon) _APPEND_ SLIT("#"))
\end{code}
projects / ghc-hetmet.git / blobdiff