#include "HsVersions.h"
-import HsSyn ( InPat(..), HsExpr(..), MonoBinds(..),
+import HsSyn ( Pat(..), HsConDetails(..), HsExpr(..), MonoBinds(..),
Match(..), GRHSs(..), Stmt(..), HsLit(..),
- HsBinds(..), HsType(..), HsDoContext(..),
+ HsBinds(..), HsType(..), HsStmtContext(..),
unguardedRHS, mkSimpleMatch, mkMonoBind, andMonoBindList, placeHolderType
)
-import RdrHsSyn ( mkHsOpApp, RdrNameMonoBinds, RdrNameHsExpr, RdrNamePat )
-import RdrName ( RdrName, mkUnqual )
+import RdrName ( RdrName, mkUnqual, nameRdrName, getRdrName )
+import RdrHsSyn ( mkHsOpApp, RdrNameMonoBinds, RdrNameHsExpr, RdrNamePat, mkHsDo )
import BasicTypes ( RecFlag(..), Fixity(..), FixityDirection(..)
, maxPrecedence
, Boxity(..)
)
-import FieldLabel ( FieldLabel, fieldLabelName )
+import FieldLabel ( fieldLabelName )
import DataCon ( isNullaryDataCon, dataConTag,
dataConOrigArgTys, dataConSourceArity, fIRST_TAG,
DataCon,
dataConFieldLabels )
import Name ( getOccString, getOccName, getSrcLoc, occNameString,
- occNameUserString, nameRdrName, varName,
+ occNameUserString, varName,
Name, NamedThing(..),
isDataSymOcc, isSymOcc
)
import HscTypes ( FixityEnv, lookupFixity )
-import PrelInfo -- Lots of RdrNames
+import PrelNames -- Lots of Names
+import PrimOp -- Lots of Names
import SrcLoc ( generatedSrcLoc, SrcLoc )
import TyCon ( TyCon, isNewTyCon, tyConDataCons, isEnumerationTyCon,
- maybeTyConSingleCon, tyConFamilySize
+ maybeTyConSingleCon, tyConFamilySize, tyConTyVars
)
import TcType ( isUnLiftedType, tcEqType, Type )
import TysPrim ( charPrimTy, intPrimTy, wordPrimTy, addrPrimTy,
floatPrimTy, doublePrimTy
)
-import Util ( mapAccumL, zipEqual, zipWithEqual, isSingleton,
- zipWith3Equal, nOfThem )
+import Util ( zipWithEqual, isSingleton,
+ zipWith3Equal, nOfThem, zipEqual )
import Panic ( panic, assertPanic )
-import Maybes ( maybeToBool )
-import Char ( ord )
+import Char ( ord, isAlpha )
import Constants
import List ( partition, intersperse )
import FastString
+import OccName
\end{code}
%************************************************************************
else -- calc. and compare the tags
[([a_Pat, b_Pat],
untag_Expr tycon [(a_RDR,ah_RDR), (b_RDR,bh_RDR)]
- (genOpApp (HsVar ah_RDR) eqH_Int_RDR (HsVar bh_RDR)))]
+ (genOpApp (HsVar ah_RDR) eqInt_RDR (HsVar bh_RDR)))]
in
mk_FunMonoBind tycon_loc eq_RDR ((map pats_etc nonnullary_cons) ++ rest)
`AndMonoBinds`
------------------------------------------------------------------
pats_etc data_con
= let
- con1_pat = ConPatIn data_con_RDR (map VarPatIn as_needed)
- con2_pat = ConPatIn data_con_RDR (map VarPatIn bs_needed)
+ con1_pat = mkConPat data_con_RDR as_needed
+ con2_pat = mkConPat data_con_RDR bs_needed
- data_con_RDR = qual_orig_name data_con
+ data_con_RDR = getRdrName data_con
con_arity = length tys_needed
as_needed = take con_arity as_RDRs
bs_needed = take con_arity bs_RDRs
tycon_loc = getSrcLoc tycon
--------------------------------------------------------------------
compare = mk_easy_FunMonoBind tycon_loc compare_RDR
- [a_Pat, b_Pat]
- [cmp_eq]
- (if maybeToBool (maybeTyConSingleCon tycon) then
-
--- cmp_eq_Expr ltTag_Expr eqTag_Expr gtTag_Expr a_Expr b_Expr
--- Weird. Was: case (cmp a b) of { LT -> LT; EQ -> EQ; GT -> GT }
-
- cmp_eq_Expr a_Expr b_Expr
- else
- 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
- eqTag_Expr
- else
--- cmp_eq_Expr ltTag_Expr eqTag_Expr gtTag_Expr a_Expr b_Expr
--- Ditto
- cmp_eq_Expr a_Expr b_Expr
- )
+ [a_Pat, b_Pat] [cmp_eq] compare_rhs
+ compare_rhs
+ | single_con_type = cmp_eq_Expr a_Expr b_Expr
+ | otherwise
+ = untag_Expr tycon [(a_RDR, ah_RDR), (b_RDR, bh_RDR)]
+ (cmp_tags_Expr eqInt_RDR ah_RDR bh_RDR
+ (cmp_eq_Expr a_Expr b_Expr) -- True case
-- False case; they aren't equal
-- So we need to do a less-than comparison on the tags
- (cmp_tags_Expr ltH_Int_RDR ah_RDR bh_RDR ltTag_Expr gtTag_Expr)))
+ (cmp_tags_Expr ltInt_RDR ah_RDR bh_RDR ltTag_Expr gtTag_Expr))
tycon_data_cons = tyConDataCons tycon
+ single_con_type = isSingleton tycon_data_cons
(nullary_cons, nonnullary_cons)
| isNewTyCon tycon = ([], tyConDataCons tycon)
| otherwise = partition isNullaryDataCon tycon_data_cons
- cmp_eq =
- mk_FunMonoBind tycon_loc
- cmp_eq_RDR
- (if null nonnullary_cons && isSingleton nullary_cons 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 isSingleton tycon_data_cons then
- []
- else
- [([WildPatIn, WildPatIn], default_rhs)]))
+ cmp_eq = mk_FunMonoBind tycon_loc cmp_eq_RDR cmp_eq_match
+ cmp_eq_match
+ | isEnumerationTyCon tycon
+ -- We know the tags are equal, so if it's an enumeration TyCon,
+ -- then there is nothing left to do
+ -- Catch this specially to avoid warnings
+ -- about overlapping patterns from the desugarer,
+ -- and to avoid unnecessary pattern-matching
+ = [([wildPat,wildPat], eqTag_Expr)]
+ | otherwise
+ = map pats_etc nonnullary_cons ++
+ (if single_con_type then -- Omit wildcards when there's just one
+ [] -- constructor, to silence desugarer
+ else
+ [([wildPat, wildPat], default_rhs)])
+
where
pats_etc data_con
= ([con1_pat, con2_pat],
nested_compare_expr tys_needed as_needed bs_needed)
where
- con1_pat = ConPatIn data_con_RDR (map VarPatIn as_needed)
- con2_pat = ConPatIn data_con_RDR (map VarPatIn bs_needed)
+ con1_pat = mkConPat data_con_RDR as_needed
+ con2_pat = mkConPat data_con_RDR bs_needed
- data_con_RDR = qual_orig_name data_con
+ data_con_RDR = getRdrName data_con
con_arity = length tys_needed
as_needed = take con_arity as_RDRs
bs_needed = take con_arity bs_RDRs
tys_needed = dataConOrigArgTys data_con
nested_compare_expr [ty] [a] [b]
- = careful_compare_Case ty ltTag_Expr eqTag_Expr gtTag_Expr (HsVar a) (HsVar b)
+ = careful_compare_Case ty eqTag_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)
+ in careful_compare_Case ty eq_expr (HsVar a) (HsVar b)
default_rhs | null nullary_cons = impossible_Expr -- Keep desugarer from complaining about
-- inexhaustive patterns
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
+ data_con_1_RDR = getRdrName data_con_1
+ data_con_N_RDR = getRdrName data_con_N
----- single-constructor-flavored: -------------
arity = dataConSourceArity data_con_1
enum_range
= mk_easy_FunMonoBind tycon_loc range_RDR
- [TuplePatIn [a_Pat, b_Pat] Boxed] [] $
+ [TuplePat [a_Pat, b_Pat] Boxed] [] $
untag_Expr tycon [(a_RDR, ah_RDR)] $
untag_Expr tycon [(b_RDR, bh_RDR)] $
HsApp (mkHsVarApps map_RDR [tag2con_RDR tycon]) $
enum_index
= mk_easy_FunMonoBind tycon_loc index_RDR
- [AsPatIn c_RDR (TuplePatIn [a_Pat, wildPat] Boxed),
+ [AsPat c_RDR (TuplePat [a_Pat, wildPat] Boxed),
d_Pat] [] (
HsIf (HsPar (mkHsVarApps inRange_RDR [c_RDR, d_RDR])) (
untag_Expr tycon [(a_RDR, ah_RDR)] (
rhs = mkHsVarApps mkInt_RDR [c_RDR]
in
HsCase
- (genOpApp (HsVar dh_RDR) minusH_RDR (HsVar ah_RDR))
- [mkSimpleMatch [VarPatIn c_RDR] rhs placeHolderType tycon_loc]
+ (genOpApp (HsVar dh_RDR) minusInt_RDR (HsVar ah_RDR))
+ [mkSimpleMatch [VarPat c_RDR] rhs placeHolderType tycon_loc]
tycon_loc
))
) {-else-} (
enum_inRange
= mk_easy_FunMonoBind tycon_loc inRange_RDR
- [TuplePatIn [a_Pat, b_Pat] Boxed, c_Pat] [] (
+ [TuplePat [a_Pat, b_Pat] 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))
+ HsIf (genOpApp (HsVar ch_RDR) geInt_RDR (HsVar ah_RDR)) (
+ (genOpApp (HsVar ch_RDR) leInt_RDR (HsVar bh_RDR))
) {-else-} (
false_Expr
) tycon_loc))))
dc
con_arity = dataConSourceArity data_con
- data_con_RDR = qual_orig_name data_con
+ data_con_RDR = getRdrName data_con
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_pat xs = mkConPat data_con_RDR xs
con_expr = mkHsVarApps data_con_RDR cs_needed
--------------------------------------------------------------
single_con_range
= mk_easy_FunMonoBind tycon_loc range_RDR
- [TuplePatIn [con_pat as_needed, con_pat bs_needed] Boxed] [] $
- HsDo ListComp stmts tycon_loc
+ [TuplePat [con_pat as_needed, con_pat bs_needed] Boxed] [] $
+ mkHsDo ListComp stmts tycon_loc
where
stmts = zipWith3Equal "single_con_range" mk_qual as_needed bs_needed cs_needed
++
[ResultStmt con_expr tycon_loc]
- mk_qual a b c = BindStmt (VarPatIn c)
+ mk_qual a b c = BindStmt (VarPat c)
(HsApp (HsVar range_RDR)
(ExplicitTuple [HsVar a, HsVar b] Boxed))
tycon_loc
----------------
single_con_index
= mk_easy_FunMonoBind tycon_loc index_RDR
- [TuplePatIn [con_pat as_needed, con_pat bs_needed] Boxed,
+ [TuplePat [con_pat as_needed, con_pat bs_needed] Boxed,
con_pat cs_needed] [range_size] (
foldl mk_index (mkHsIntLit 0) (zip3 as_needed bs_needed cs_needed))
where
range_size
= mk_easy_FunMonoBind tycon_loc rangeSize_RDR
- [TuplePatIn [a_Pat, b_Pat] Boxed] [] (
+ [TuplePat [a_Pat, b_Pat] Boxed] [] (
genOpApp (
(mkHsApps index_RDR [ExplicitTuple [a_Expr, b_Expr] Boxed,
b_Expr])
------------------
single_con_inRange
= mk_easy_FunMonoBind tycon_loc inRange_RDR
- [TuplePatIn [con_pat as_needed, con_pat bs_needed] Boxed,
+ [TuplePat [con_pat as_needed, con_pat bs_needed] Boxed,
con_pat cs_needed]
[] (
foldl1 and_Expr (zipWith3Equal "single_con_inRange" in_range as_needed bs_needed cs_needed))
instance Read T where
readPrec =
- block
+ parens
( prec 4 (
do x <- ReadP.step Read.readPrec
Symbol "%%" <- Lex.lex
+++
prec appPrec (
do Ident "T1" <- Lex.lex
- Single '{' <- Lex.lex
+ Punc '{' <- Lex.lex
Ident "f1" <- Lex.lex
- Single '=' <- Lex.lex
+ Punc '=' <- Lex.lex
x <- ReadP.reset Read.readPrec
- Single '}' <- Lex.lex
+ Punc '}' <- Lex.lex
return (T1 { f1 = x }))
+++
prec appPrec (
read_nullary_cons
= case nullary_cons of
[] -> []
- [con] -> [HsDo DoExpr [BindStmt (ident_pat (data_con_str con)) lex loc,
- result_stmt con []] loc]
+ [con] -> [mkHsDo DoExpr [bindLex (ident_pat (data_con_str con)),
+ result_stmt con []] loc]
_ -> [HsApp (HsVar choose_RDR)
(ExplicitList placeHolderType (map mk_pair nullary_cons))]
mk_pair con = ExplicitTuple [HsLit (data_con_str con),
- HsApp (HsVar returnM_RDR) (HsVar (qual_orig_name con))]
+ HsApp (HsVar returnM_RDR) (HsVar (getRdrName con))]
Boxed
read_non_nullary_con data_con
- = mkHsApps prec_RDR [mkHsIntLit prec, HsDo DoExpr stmts loc]
+ = mkHsApps prec_RDR [mkHsIntLit prec, mkHsDo DoExpr stmts loc]
where
stmts | is_infix = infix_stmts
| length labels > 0 = lbl_stmts
| otherwise = prefix_stmts
prefix_stmts -- T a b c
- = [BindStmt (ident_pat (data_con_str data_con)) lex loc]
+ = [bindLex (ident_pat (data_con_str data_con))]
++ map read_arg as_needed
++ [result_stmt data_con as_needed]
infix_stmts -- a %% b
= [read_arg a1,
- BindStmt (symbol_pat (data_con_str data_con)) lex loc,
+ bindLex (symbol_pat (data_con_str data_con)),
read_arg a2,
result_stmt data_con [a1,a2]]
lbl_stmts -- T { f1 = a, f2 = b }
- = [BindStmt (ident_pat (data_con_str data_con)) lex loc,
- read_punc '{']
- ++ concat (intersperse [read_punc ','] field_stmts)
- ++ [read_punc '}', result_stmt data_con as_needed]
+ = [bindLex (ident_pat (data_con_str data_con)),
+ read_punc "{"]
+ ++ concat (intersperse [read_punc ","] field_stmts)
+ ++ [read_punc "}", result_stmt data_con as_needed]
field_stmts = zipWithEqual "lbl_stmts" read_field labels as_needed
nullary_con = con_arity == 0
labels = dataConFieldLabels data_con
lab_fields = length labels
- dc_nm = getName data_con
+ dc_nm = getName data_con
is_infix = isDataSymOcc (getOccName dc_nm)
as_needed = take con_arity as_RDRs
(a1:a2:_) = as_needed
-
- prec | not is_infix = appPrecedence
- | otherwise = getPrecedence get_fixity dc_nm
+ prec = getPrec is_infix get_fixity dc_nm
------------------------------------------------------------------------
-- Helpers
------------------------------------------------------------------------
mk_alt e1 e2 = genOpApp e1 alt_RDR e2
+ bindLex pat = BindStmt pat (HsVar lexP_RDR) loc
result_stmt c as = ResultStmt (HsApp (HsVar returnM_RDR) (con_app c as)) loc
- con_app c as = mkHsVarApps (qual_orig_name c) as
+ con_app c as = mkHsVarApps (getRdrName c) as
- lex = HsVar lexP_RDR
- single_pat c = ConPatIn single_RDR [LitPatIn (mkHsChar c)] -- Single 'x'
- ident_pat s = ConPatIn ident_RDR [LitPatIn s] -- Ident "foo"
- symbol_pat s = ConPatIn symbol_RDR [LitPatIn s] -- Symbol ">>"
+ punc_pat s = ConPatIn punc_RDR (PrefixCon [LitPat (mkHsString s)]) -- Punc 'c'
+ ident_pat s = ConPatIn ident_RDR (PrefixCon [LitPat s]) -- Ident "foo"
+ symbol_pat s = ConPatIn symbol_RDR (PrefixCon [LitPat s]) -- Symbol ">>"
- lbl_str :: FieldLabel -> HsLit
- lbl_str lbl = mkHsString (occNameUserString (getOccName (fieldLabelName lbl)))
data_con_str con = mkHsString (occNameUserString (getOccName con))
- read_punc c = BindStmt (single_pat c) lex loc
- read_arg a = BindStmt (VarPatIn a) (mkHsVarApps step_RDR [readPrec_RDR]) loc
+ read_punc c = bindLex (punc_pat c)
+ read_arg a = BindStmt (VarPat a) (mkHsVarApps step_RDR [readPrec_RDR]) loc
- read_field lbl a = [BindStmt (ident_pat (lbl_str lbl)) lex loc,
- read_punc '=',
- BindStmt (VarPatIn a) (mkHsVarApps reset_RDR [readPrec_RDR]) loc]
+ read_field lbl a = read_lbl lbl ++
+ [read_punc "=",
+ BindStmt (VarPat a) (mkHsVarApps reset_RDR [readPrec_RDR]) loc]
+
+ -- When reading field labels we might encounter
+ -- a = 3
+ -- _a = 3
+ -- or (#) = 4
+ -- Note the parens!
+ read_lbl lbl | is_id_start (head lbl_str)
+ = [bindLex (ident_pat lbl_lit)]
+ | otherwise
+ = [read_punc "(",
+ bindLex (symbol_pat lbl_lit),
+ read_punc ")"]
+ where
+ lbl_str = occNameUserString (getOccName (fieldLabelName lbl))
+ lbl_lit = mkHsString lbl_str
+ is_id_start c = isAlpha c || c == '_'
\end{code}
%* *
%************************************************************************
+Example
+
+ infixr 5 :^:
+
+ data Tree a = Leaf a | Tree a :^: Tree a
+
+ instance (Show a) => Show (Tree a) where
+
+ showsPrec d (Leaf m) = showParen (d > app_prec) showStr
+ where
+ showStr = showString "Leaf " . showsPrec (app_prec+1) m
+
+ showsPrec d (u :^: v) = showParen (d > up_prec) showStr
+ where
+ showStr = showsPrec (up_prec+1) u .
+ showString " :^: " .
+ showsPrec (up_prec+1) v
+ -- Note: right-associativity of :^: ignored
+
+ up_prec = 5 -- Precedence of :^:
+ app_prec = 10 -- Application has precedence one more than
+ -- the most tightly-binding operator
+
\begin{code}
gen_Show_binds :: FixityEnv -> TyCon -> RdrNameMonoBinds
pats_etc data_con
| nullary_con = -- skip the showParen junk...
ASSERT(null bs_needed)
- ([wildPat, con_pat], show_con)
+ ([wildPat, con_pat], mk_showString_app con_str)
| otherwise =
([a_Pat, con_pat],
- showParen_Expr (HsPar (genOpApp a_Expr ge_RDR (HsLit (HsInt paren_prec_limit))))
+ showParen_Expr (HsPar (genOpApp a_Expr ge_RDR (HsLit (HsInt con_prec_plus_one))))
(HsPar (nested_compose_Expr show_thingies)))
where
- data_con_RDR = qual_orig_name data_con
- con_arity = dataConSourceArity 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
+ data_con_RDR = getRdrName data_con
+ con_arity = dataConSourceArity data_con
+ bs_needed = take con_arity bs_RDRs
+ con_pat = mkConPat data_con_RDR bs_needed
+ nullary_con = con_arity == 0
+ labels = dataConFieldLabels data_con
+ lab_fields = length labels
+ record_syntax = lab_fields > 0
dc_nm = getName data_con
dc_occ_nm = getOccName data_con
- dc_occ_nm_str = occNameUserString dc_occ_nm
-
- is_infix = isDataSymOcc dc_occ_nm
+ con_str = occNameUserString dc_occ_nm
-
- show_con
- | is_infix = mk_showString_app (' ':dc_occ_nm_str)
- | otherwise = mk_showString_app (dc_occ_nm_str ++ space_ocurly_maybe)
- where
- space_ocurly_maybe
- | nullary_con = ""
- | lab_fields == 0 = " "
- | otherwise = "{"
-
-
- show_all con fs@(x:xs)
- | is_infix = x:con:xs
- | otherwise =
- let
- ccurly_maybe
- | lab_fields > 0 = [mk_showString_app "}"]
- | otherwise = []
- in
- con:fs ++ ccurly_maybe
-
- show_thingies = show_all show_con real_show_thingies_with_labs
+ show_thingies
+ | is_infix = [show_arg1, mk_showString_app (" " ++ con_str ++ " "), show_arg2]
+ | record_syntax = mk_showString_app (con_str ++ " {") :
+ show_record_args ++ [mk_showString_app "}"]
+ | otherwise = mk_showString_app (con_str ++ " ") : show_prefix_args
- show_label l = mk_showString_app (the_name ++ "=")
+ show_label l = mk_showString_app (the_name ++ " = ")
+ -- Note the spaces around the "=" sign. If we don't have them
+ -- then we get Foo { x=-1 } and the "=-" parses as a single
+ -- lexeme. Only the space after the '=' is necessary, but
+ -- it seems tidier to have them both sides.
where
occ_nm = getOccName (fieldLabelName l)
- -- legal, but rare.
- is_op = isSymOcc occ_nm
+ nm = occNameUserString occ_nm
+
+ is_op = isSymOcc occ_nm -- Legal, but rare.
the_name
| is_op = '(':nm ++ ")"
| otherwise = nm
- nm = occNameUserString occ_nm
-
-
- mk_showString_app str = HsApp (HsVar showString_RDR)
- (HsLit (mkHsString str))
-
- prec_cons = getLRPrecs is_infix get_fixity dc_nm
-
- real_show_thingies
- | is_infix =
- [ mkHsApps showsPrec_RDR [HsLit (HsInt p), HsVar b]
- | (p,b) <- zip prec_cons bs_needed ]
- | otherwise =
- [ mkHsApps showsPrec_RDR [mkHsIntLit 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 ","]) $ -- Using SLIT()s containing ,s spells trouble.
- zipWithEqual "gen_Show_binds"
- (\ a b -> [a,b])
- (map show_label labels)
- real_show_thingies
+ show_args = [ mkHsApps showsPrec_RDR [HsLit (HsInt arg_prec), HsVar b]
+ | b <- bs_needed ]
+ (show_arg1:show_arg2:_) = show_args
+ show_prefix_args = intersperse (HsVar showSpace_RDR) show_args
+
+ -- Assumption for record syntax: no of fields == no of labelled fields
+ -- (and in same order)
+ show_record_args = concat $
+ intersperse [mk_showString_app ", "] $
+ [ [show_label lbl, arg]
+ | (lbl,arg) <- zipEqual "gen_Show_binds"
+ labels show_args ]
- {-
- c.f. Figure 16 and 17 in Haskell 1.1 report
- -}
- paren_prec_limit
- | not is_infix = appPrecedence + 1
- | otherwise = getPrecedence get_fixity dc_nm + 1
+ -- Fixity stuff
+ is_infix = isDataSymOcc dc_occ_nm
+ con_prec_plus_one = 1 + getPrec is_infix get_fixity dc_nm
+ arg_prec | record_syntax = 0 -- Record fields don't need parens
+ | otherwise = con_prec_plus_one
+mk_showString_app str = HsApp (HsVar showString_RDR) (HsLit (mkHsString str))
\end{code}
\begin{code}
-getLRPrecs :: Bool -> FixityEnv -> Name -> [Integer]
-getLRPrecs is_infix get_fixity nm = [lp, rp]
- where
- {-
- Figuring out the fixities of the arguments to a constructor,
- cf. Figures 16-18 in Haskell 1.1 report.
- -}
- (con_left_assoc, con_right_assoc) = isLRAssoc get_fixity nm
- paren_con_prec = getPrecedence get_fixity nm
-
- lp
- | not is_infix = appPrecedence + 1
- | con_left_assoc = paren_con_prec
- | otherwise = paren_con_prec + 1
-
- rp
- | not is_infix = appPrecedence + 1
- | con_right_assoc = paren_con_prec
- | otherwise = paren_con_prec + 1
+getPrec :: Bool -> FixityEnv -> Name -> Integer
+getPrec is_infix get_fixity nm
+ | not is_infix = appPrecedence
+ | otherwise = getPrecedence get_fixity nm
appPrecedence :: Integer
-appPrecedence = fromIntegral maxPrecedence
+appPrecedence = fromIntegral maxPrecedence + 1
+ -- One more than the precedence of the most
+ -- tightly-binding operator
getPrecedence :: FixityEnv -> Name -> Integer
getPrecedence get_fixity nm
gen_tag_n_con_monobind (rdr_name, tycon, GenCon2Tag)
| lots_of_constructors
- = mk_FunMonoBind (getSrcLoc tycon) rdr_name
- [([VarPatIn a_RDR], HsApp getTag_Expr a_Expr)]
+ = mk_FunMonoBind loc rdr_name [([], get_tag_rhs)]
| otherwise
- = mk_FunMonoBind (getSrcLoc tycon) rdr_name (map mk_stuff (tyConDataCons tycon))
+ = mk_FunMonoBind loc rdr_name (map mk_stuff (tyConDataCons tycon))
where
+ loc = getSrcLoc tycon
+
+ -- Give a signature to the bound variable, so
+ -- that the case expression generated by getTag is
+ -- monomorphic. In the push-enter model we get better code.
+ get_tag_rhs = ExprWithTySig
+ (HsLam (mk_match loc [VarPat a_RDR]
+ (HsApp getTag_Expr a_Expr)
+ EmptyBinds))
+ (HsForAllTy Nothing [] con2tag_ty)
+ -- Nothing => implicit quantification
+
+ con2tag_ty = foldl HsAppTy (HsTyVar (getRdrName tycon))
+ [HsTyVar (getRdrName tv) | tv <- tyConTyVars tycon]
+ `HsFunTy`
+ HsTyVar (getRdrName intPrimTyConName)
+
lots_of_constructors = tyConFamilySize tycon > mAX_FAMILY_SIZE_FOR_VEC_RETURNS
mk_stuff :: DataCon -> ([RdrNamePat], RdrNameHsExpr)
mk_stuff var
= ([pat], HsLit (HsIntPrim (toInteger ((dataConTag var) - fIRST_TAG))))
where
- pat = ConPatIn var_RDR (nOfThem (dataConSourceArity var) WildPatIn)
- var_RDR = qual_orig_name var
+ pat = ConPatIn var_RDR (PrefixCon (nOfThem (dataConSourceArity var) wildPat))
+ var_RDR = getRdrName var
gen_tag_n_con_monobind (rdr_name, tycon, GenTag2Con)
= mk_FunMonoBind (getSrcLoc tycon) rdr_name
- [([ConPatIn mkInt_RDR [VarPatIn a_RDR]],
+ [([mkConPat mkInt_RDR [a_RDR]],
ExprWithTySig (HsApp tagToEnum_Expr a_Expr)
- (HsTyVar (qual_orig_name tycon)))]
+ (HsTyVar (getRdrName tycon)))]
gen_tag_n_con_monobind (rdr_name, tycon, GenMaxTag)
= mk_easy_FunMonoBind (getSrcLoc tycon)
= FunMonoBind fun False{-not infix-} [mk_easy_Match loc pats binds expr] loc
mk_easy_Match loc pats binds expr
- = mk_match loc pats expr (mkMonoBind (andMonoBindList binds) [] Recursive)
+ = mk_match loc pats expr (mkMonoBind Recursive (andMonoBindList binds))
-- The renamer expects everything in its input to be a
-- "recursive" MonoBinds, and it is its job to sort things out
-- from there.
= Match (map paren pats) Nothing
(GRHSs (unguardedRHS expr loc) binds placeHolderType)
where
- paren p@(VarPatIn _) = p
- paren other_p = ParPatIn other_p
+ paren p@(VarPat _) = p
+ paren other_p = ParPat other_p
\end{code}
\begin{code}
mkHsIntLit n = HsLit (HsInt n)
mkHsString s = HsString (mkFastString s)
mkHsChar c = HsChar (ord c)
+
+mkConPat con vars = ConPatIn con (PrefixCon (map VarPat vars))
+mkNullaryConPat con = ConPatIn con (PrefixCon [])
\end{code}
ToDo: Better SrcLocs.
\begin{code}
compare_gen_Case ::
- RdrName
- -> RdrNameHsExpr -> RdrNameHsExpr -> RdrNameHsExpr
+ RdrNameHsExpr -- What to do for equality
-> RdrNameHsExpr -> RdrNameHsExpr
-> RdrNameHsExpr
careful_compare_Case :: -- checks for primitive types...
Type
- -> RdrNameHsExpr -> RdrNameHsExpr -> RdrNameHsExpr
+ -> RdrNameHsExpr -- What to do for equality
-> RdrNameHsExpr -> RdrNameHsExpr
-> RdrNameHsExpr
cmp_eq_Expr a b = HsApp (HsApp (HsVar cmp_eq_RDR) a) b
-- Was: compare_gen_Case cmp_eq_RDR
-compare_gen_Case fun lt eq gt a b
- = HsCase (HsPar (HsApp (HsApp (HsVar fun) a) b)) {-of-}
- [mkSimpleMatch [ConPatIn ltTag_RDR []] lt placeHolderType generatedSrcLoc,
- mkSimpleMatch [ConPatIn eqTag_RDR []] eq placeHolderType generatedSrcLoc,
- mkSimpleMatch [ConPatIn gtTag_RDR []] gt placeHolderType generatedSrcLoc]
+compare_gen_Case (HsVar eq_tag) a b | eq_tag == eqTag_RDR
+ = HsApp (HsApp (HsVar compare_RDR) a) b -- Simple case
+compare_gen_Case eq a b -- General case
+ = HsCase (HsPar (HsApp (HsApp (HsVar compare_RDR) a) b)) {-of-}
+ [mkSimpleMatch [mkNullaryConPat ltTag_RDR] ltTag_Expr placeHolderType generatedSrcLoc,
+ mkSimpleMatch [mkNullaryConPat eqTag_RDR] eq placeHolderType generatedSrcLoc,
+ mkSimpleMatch [mkNullaryConPat gtTag_RDR] gtTag_Expr placeHolderType generatedSrcLoc]
generatedSrcLoc
-careful_compare_Case ty lt eq gt a b
+careful_compare_Case ty eq a b
| not (isUnLiftedType ty) =
- compare_gen_Case compare_RDR lt eq gt a b
+ compare_gen_Case eq a b
| otherwise =
-- we have to do something special for primitive things...
HsIf (genOpApp a relevant_eq_op b)
eq
- (HsIf (genOpApp a relevant_lt_op b) lt gt generatedSrcLoc)
+ (HsIf (genOpApp a relevant_lt_op b) ltTag_Expr gtTag_Expr generatedSrcLoc)
generatedSrcLoc
where
relevant_eq_op = assoc_ty_id eq_op_tbl ty
res = [id | (ty',id) <- tyids, ty `tcEqType` 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)
+ [(charPrimTy, eqChar_RDR)
+ ,(intPrimTy, eqInt_RDR)
+ ,(wordPrimTy, eqWord_RDR)
+ ,(addrPrimTy, eqAddr_RDR)
+ ,(floatPrimTy, eqFloat_RDR)
+ ,(doublePrimTy, eqDouble_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)
+ [(charPrimTy, ltChar_RDR)
+ ,(intPrimTy, ltInt_RDR)
+ ,(wordPrimTy, ltWord_RDR)
+ ,(addrPrimTy, ltAddr_RDR)
+ ,(floatPrimTy, ltFloat_RDR)
+ ,(doublePrimTy, ltDouble_RDR)
]
-----------------------------------------------------------------------
untag_Expr tycon [] expr = expr
untag_Expr tycon ((untag_this, put_tag_here) : more) expr
= HsCase (HsPar (HsApp (con2tag_Expr tycon) (HsVar untag_this))) {-of-}
- [mkSimpleMatch [VarPatIn put_tag_here] (untag_Expr tycon more expr) placeHolderType generatedSrcLoc]
+ [mkSimpleMatch [VarPat put_tag_here] (untag_Expr tycon more expr) placeHolderType generatedSrcLoc]
generatedSrcLoc
cmp_tags_Expr :: RdrName -- Comparison op
\end{code}
\begin{code}
-qual_orig_name n = nameRdrName (getName n)
-varUnqual n = mkUnqual varName n
+varUnqual n = mkUnqual OccName.varName n
zz_a_RDR = varUnqual FSLIT("_a")
a_RDR = varUnqual FSLIT("a")
true_Expr = HsVar true_RDR
getTag_Expr = HsVar getTag_RDR
-tagToEnum_Expr = HsVar tagToEnumH_RDR
+tagToEnum_Expr = HsVar tagToEnum_RDR
con2tag_Expr tycon = HsVar (con2tag_RDR tycon)
-wildPat = WildPatIn
-zz_a_Pat = VarPatIn zz_a_RDR
-a_Pat = VarPatIn a_RDR
-b_Pat = VarPatIn b_RDR
-c_Pat = VarPatIn c_RDR
-d_Pat = VarPatIn d_RDR
+wildPat = WildPat placeHolderType
+zz_a_Pat = VarPat zz_a_RDR
+a_Pat = VarPat a_RDR
+b_Pat = VarPat b_RDR
+c_Pat = VarPat c_RDR
+d_Pat = VarPat d_RDR
con2tag_RDR, tag2con_RDR, maxtag_RDR :: TyCon -> RdrName
tag2con_RDR tycon = varUnqual (mkFastString ("tag2con_" ++ occNameString (getOccName tycon) ++ "#"))
maxtag_RDR tycon = varUnqual (mkFastString ("maxtag_" ++ occNameString (getOccName tycon) ++ "#"))
\end{code}
+
+RdrNames for PrimOps. Can't be done in PrelNames, because PrimOp imports
+PrelNames, so PrelNames can't import PrimOp.
+
+\begin{code}
+minusInt_RDR = nameRdrName minusIntName
+eqInt_RDR = nameRdrName eqIntName
+ltInt_RDR = nameRdrName ltIntName
+geInt_RDR = nameRdrName geIntName
+leInt_RDR = nameRdrName leIntName
+eqChar_RDR = nameRdrName eqCharName
+eqWord_RDR = nameRdrName eqWordName
+eqAddr_RDR = nameRdrName eqAddrName
+eqFloat_RDR = nameRdrName eqFloatName
+eqDouble_RDR = nameRdrName eqDoubleName
+ltChar_RDR = nameRdrName ltCharName
+ltWord_RDR = nameRdrName ltWordName
+ltAddr_RDR = nameRdrName ltAddrName
+ltFloat_RDR = nameRdrName ltFloatName
+ltDouble_RDR = nameRdrName ltDoubleName
+tagToEnum_RDR = nameRdrName tagToEnumName
+\end{code}