This is where we do all the grimy bindings' generation.
\begin{code}
-#include "HsVersions.h"
-
module TcGenDeriv (
gen_Bounded_binds,
gen_Enum_binds,
TagThingWanted(..)
) where
-IMP_Ubiq()
-IMPORT_1_3(List(partition))
+#include "HsVersions.h"
-import HsSyn ( HsBinds(..), MonoBinds(..), Match(..), GRHSsAndBinds(..),
- GRHS(..), HsExpr(..), HsLit(..), InPat(..), Stmt(..), DoOrListComp(..),
- SYN_IE(RecFlag), recursive,
- ArithSeqInfo, Sig, HsType, FixityDecl, Fixity, Fake )
+import HsSyn ( InPat(..), HsExpr(..), MonoBinds(..), GRHS(..),
+ Match(..), GRHSsAndBinds(..), Stmt(..), HsLit(..),
+ HsBinds(..), DoOrListComp(..),
+ unguardedRHS
+ )
import RdrHsSyn ( RdrName(..), varQual, varUnqual, mkOpApp,
- SYN_IE(RdrNameMonoBinds), SYN_IE(RdrNameHsExpr), SYN_IE(RdrNamePat)
+ RdrNameMonoBinds, RdrNameHsExpr, RdrNamePat
)
-import BasicTypes ( IfaceFlavour(..) )
+import BasicTypes ( IfaceFlavour(..), RecFlag(..) )
+import FieldLabel ( fieldLabelName )
import Id ( GenId, isNullaryDataCon, dataConTag,
dataConRawArgTys, fIRST_TAG,
- isDataCon, SYN_IE(DataCon), SYN_IE(ConTag),
- SYN_IE(Id) )
+ isDataCon, DataCon, ConTag,
+ dataConFieldLabels, Id )
import Maybes ( maybeToBool )
-import Name ( getOccString, getOccName, getSrcLoc, occNameString, modAndOcc, OccName, Name )
+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 Type ( eqTy, isPrimType, SYN_IE(Type) )
+import Type ( isUnpointedType, isUnboxedType, Type )
import TysPrim ( charPrimTy, intPrimTy, wordPrimTy, addrPrimTy,
floatPrimTy, doublePrimTy
)
-import Util ( mapAccumL, zipEqual, zipWith3Equal, nOfThem, panic, assertPanic )
+import Util ( mapAccumL, zipEqual, zipWithEqual,
+ zipWith3Equal, nOfThem, panic, assertPanic )
+
+import List ( partition, intersperse )
\end{code}
%************************************************************************
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)
= compareInt# a1 a2
\end{verbatim}
\end{itemize}
+If there is only one constructor in the Data Type we don't need the WildCard Patern.
+JJQC-30-Nov-1997
+
\begin{code}
gen_Ord_binds :: TyCon -> RdrNameMonoBinds
cmp_eq
= mk_FunMonoBind tycon_loc cmp_eq_RDR (map pats_etc nonnullary_cons ++
- [([WildPatIn, WildPatIn], default_rhs)])
+ if ((length nonnullary_cons + length nullary_cons) == 1)
+ then []
+ else [([WildPatIn, WildPatIn],
+ default_rhs)])
where
pats_etc data_con
= ([con1_pat, con2_pat],
untag_Expr tycon [(a_RDR, ah_RDR)] (
untag_Expr tycon [(d_RDR, dh_RDR)] (
let
- grhs = [OtherwiseGRHS (mk_easy_App mkInt_RDR [c_RDR]) tycon_loc]
+ grhs = unguardedRHS (mk_easy_App mkInt_RDR [c_RDR]) tycon_loc
in
HsCase
(genOpApp (HsVar dh_RDR) minusH_RDR (HsVar ah_RDR))
) 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 maybeTyConSingleCon tycon of -- just checking...
Nothing -> panic "get_Ix_binds"
- Just dc -> if (any isPrimType (dataConRawArgTys dc)) then
+ Just dc -> if (any isUnpointedType (dataConRawArgTys dc)) then
error ("ERROR: Can't derive Ix for a single-constructor type with primitive argument types: "++tycon_str)
else
dc
- con_arity = argFieldCount data_con
+ con_arity = argFieldCount data_con
data_con_RDR = qual_orig_name data_con
- con_pat xs = ConPatIn data_con_RDR (map VarPatIn xs)
- con_expr xs = mk_easy_App data_con_RDR xs
as_needed = take con_arity as_RDRs
bs_needed = take con_arity bs_RDRs
cs_needed = take con_arity cs_RDRs
+ 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 tycon_loc range_RDR [TuplePatIn [con_pat as_needed, con_pat bs_needed]] [] $
where
stmts = zipWith3Equal "single_con_range" mk_qual as_needed bs_needed cs_needed
++
- [ReturnStmt (con_expr cs_needed)]
+ [ReturnStmt con_expr]
mk_qual a b c = BindStmt (VarPatIn c)
(HsApp (HsVar range_RDR) (ExplicitTuple [HsVar a, HsVar b]))
data_con_RDR = qual_orig_name data_con
data_con_str= occNameString (getOccName data_con)
con_arity = argFieldCount data_con
- as_needed = take con_arity as_RDRs
- bs_needed = take con_arity bs_RDRs
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
- = BindStmt
- (TuplePatIn [LitPatIn (HsString data_con_str), d_Pat])
- (HsApp (HsVar lex_RDR) c_Expr)
- tycon_loc
-
- field_quals = snd (mapAccumL mk_qual d_Expr (zipEqual "as_needed" as_needed bs_needed))
- mk_qual draw_from (con_field, str_left)
+ = BindStmt
+ (TuplePatIn [LitPatIn (HsString data_con_str), d_Pat])
+ (HsApp (HsVar lex_RDR) c_Expr)
+ tycon_loc
+
+ str_qual str res draw_from
+ = BindStmt
+ (TuplePatIn [LitPatIn (HsString str), VarPatIn res])
+ (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...
- BindStmt
- (TuplePatIn [VarPatIn con_field, VarPatIn str_left])
- (HsApp (HsApp (HsVar readsPrec_RDR) (HsLit (HsInt 10))) draw_from)
- tycon_loc
- )
+ f str_left draw_from)
+
+ mk_read_qual con_field res draw_from =
+ BindStmt
+ (TuplePatIn [VarPatIn con_field, VarPatIn res])
+ (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)]
- stmts = (con_qual : field_quals) ++ [ReturnStmt result_expr]
+ stmts = con_qual:field_quals ++ [ReturnStmt result_expr]
-
read_paren_arg
= if nullary_con then -- must be False (parens are surely optional)
false_Expr
HsLam (mk_easy_Match tycon_loc [c_Pat] [] $
HsDo ListComp stmts tycon_loc)
) (HsVar b_RDR)
+
\end{code}
%************************************************************************
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
+ 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_maybe = if nullary_con then _NIL_ else SLIT(" ")
+ space_ocurly_maybe
+ | nullary_con = _NIL_
+ | lab_fields == 0 = SLIT(" ")
+ | otherwise = SLIT("{")
+
in
- HsApp (HsVar showString_RDR) (HsLit (HsString (nm _APPEND_ space_maybe)))
+ mk_showString_app (nm _APPEND_ space_ocurly_maybe)
- show_thingies = show_con : (spacified real_show_thingies)
+ 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() is not cool here.
+ zipWithEqual "gen_Show_binds"
+ (\ a b -> [a,b])
+ (map show_label labels)
+ real_show_thingies
+
- real_show_thingies
- = [ HsApp (HsApp (HsVar showsPrec_RDR) (HsLit (HsInt 10))) (HsVar b)
- | b <- bs_needed ]
in
if nullary_con then -- skip the showParen junk...
ASSERT(null bs_needed)
([a_Pat, con_pat],
showParen_Expr (HsPar (genOpApp a_Expr ge_RDR (HsLit (HsInt 10))))
(HsPar (nested_compose_Expr show_thingies)))
- where
- spacified [] = []
- spacified [x] = [x]
- spacified (x:xs) = (x : (HsVar showSpace_RDR) : spacified xs)
\end{code}
%************************************************************************
= mk_match loc pats expr (mkbind binds)
where
mkbind [] = EmptyBinds
- mkbind bs = MonoBind (foldr1 AndMonoBinds bs) [] recursive
+ 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_match loc pats expr binds
= foldr PatMatch
- (GRHSMatch (GRHSsAndBindsIn [OtherwiseGRHS expr loc] binds))
+ (GRHSMatch (GRHSsAndBindsIn (unguardedRHS expr loc) binds))
(map paren pats)
where
paren p@(VarPatIn _) = p
compare_gen_Case fun lt eq gt a b
= HsCase (HsPar (HsApp (HsApp (HsVar fun) a) b)) {-of-}
[PatMatch (ConPatIn ltTag_RDR [])
- (GRHSMatch (GRHSsAndBindsIn [OtherwiseGRHS lt mkGeneratedSrcLoc] EmptyBinds)),
+ (GRHSMatch (GRHSsAndBindsIn (unguardedRHS lt mkGeneratedSrcLoc) EmptyBinds)),
PatMatch (ConPatIn eqTag_RDR [])
- (GRHSMatch (GRHSsAndBindsIn [OtherwiseGRHS eq mkGeneratedSrcLoc] EmptyBinds)),
+ (GRHSMatch (GRHSsAndBindsIn (unguardedRHS eq mkGeneratedSrcLoc) EmptyBinds)),
PatMatch (ConPatIn gtTag_RDR [])
- (GRHSMatch (GRHSsAndBindsIn [OtherwiseGRHS gt mkGeneratedSrcLoc] EmptyBinds))]
+ (GRHSMatch (GRHSsAndBindsIn (unguardedRHS gt mkGeneratedSrcLoc) EmptyBinds))]
mkGeneratedSrcLoc
careful_compare_Case ty lt eq gt a b
- = if not (isPrimType ty) then
+ = 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 null res then panic "assoc_ty"
else head res
where
- res = [id | (ty',id) <- tyids, eqTy ty ty']
+ res = [id | (ty',id) <- tyids, ty == ty']
eq_op_tbl =
[(charPrimTy, eqH_Char_RDR)
eq_Expr :: Type -> RdrNameHsExpr -> RdrNameHsExpr -> RdrNameHsExpr
eq_Expr ty a b
- = if not (isPrimType ty) then
+ = if not (isUnboxedType ty) then
genOpApp a eq_RDR b
else -- we have to do something special for primitive things...
genOpApp a relevant_eq_op b
(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 :: RdrName -- Comparison op
-> RdrName -> RdrName -- Things to compare