7 #include "HsVersions.h"
14 import qualified ZipCfgCmmRep as G
15 import qualified ZipCfg as Z
22 ----------------------------------------------------------------
23 -- | The purpose of this function is to print a Cmm zipper graph "as if it were"
24 -- a Cmm program. The objective is dodgy, so it's unsurprising parts of the
25 -- code are dodgy as well.
27 pprCmmGraphLikeCmm :: G.CmmGraph -> SDoc
28 pprCmmGraphLikeCmm g = vcat (swallow blocks)
29 where blocks = Z.postorder_dfs g
30 swallow :: [G.CmmBlock] -> [SDoc]
32 swallow (Z.Block id t : rest) = tail id [] Nothing t rest
33 tail id prev' out (Z.ZTail (G.CopyOut conv args) t) rest =
34 if isJust out then panic "multiple CopyOut nodes in one basic block"
36 tail id (prev') (Just (conv, args)) t rest
37 tail id prev' out (Z.ZTail m t) rest = tail id (mid m : prev') out t rest
38 tail id prev' out (Z.ZLast Z.LastExit) rest = exit id prev' out rest
39 tail id prev' out (Z.ZLast (Z.LastOther l)) rest = last id prev' out l rest
40 mid (G.CopyIn _ [] _) = text "// proc point (no parameters)"
41 mid m@(G.CopyIn {}) = ppr m <+> text "(proc point)"
44 | id == Z.lg_entry g, entry_has_no_pred =
45 vcat (text "<entry>" : reverse prev')
46 | otherwise = hang (ppr id <> colon) 4 (vcat (reverse prev'))
47 last id prev' out l n =
48 let endblock stmt = block' id (stmt : prev') : swallow n in
53 | tgt == id', unique_pred id'
54 -> tail id prev' out t bs -- optimize out redundant labels
55 _ -> endblock (ppr $ CmmBranch tgt)
56 l@(G.LastCondBranch expr tid fid) ->
57 let ft id = text "// fall through to " <> ppr id in
60 | id' == fid, isNothing out ->
61 tail id (ft fid : ppr (CmmCondBranch expr tid) : prev') Nothing t bs
62 | id' == tid, Just e' <- maybeInvertCmmExpr expr, isNothing out->
63 tail id (ft tid : ppr (CmmCondBranch e' fid) : prev') Nothing t bs
64 _ -> endblock $ with_out out l
65 l@(G.LastJump {}) -> endblock $ with_out out l
66 l@(G.LastReturn {}) -> endblock $ with_out out l
67 l@(G.LastSwitch {}) -> endblock $ with_out out l
68 l@(G.LastCall _ Nothing) -> endblock $ with_out out l
69 l@(G.LastCall tgt (Just k))
70 | Z.Block id' (Z.ZTail (G.CopyIn _ ress srt) t) : bs <- n,
71 Just (conv, args) <- out,
73 let call = CmmCall tgt' ress args (CmmSafe srt) CmmMayReturn
74 tgt' = CmmCallee tgt (cconv_of_conv conv)
75 ppcall = ppr call <+> parens (text "ret to" <+> ppr k)
76 in if unique_pred k then
77 tail id (ppcall : prev') Nothing t bs
80 | Z.Block id' t : bs <- n, id' == k, unique_pred k,
81 Just (conv, args) <- out,
82 Just (ress, srt) <- findCopyIn t ->
83 let call = CmmCall tgt' ress args (CmmSafe srt) CmmMayReturn
84 tgt' = CmmCallee tgt (cconv_of_conv conv)
86 ptext SLIT("// delayed CopyIn follows previous call")
87 in tail id (delayed : ppr call : prev') Nothing t bs
88 | otherwise -> endblock $ with_out out l
89 findCopyIn (Z.ZTail (G.CopyIn _ ress srt) _) = Just (ress, srt)
90 findCopyIn (Z.ZTail _ t) = findCopyIn t
91 findCopyIn (Z.ZLast _) = Nothing
92 exit id prev' out n = -- highly irregular (assertion violation?)
93 let endblock stmt = block' id (stmt : prev') : swallow n in
94 case out of Nothing -> endblock (text "// <exit>")
95 Just (conv, args) -> endblock (ppr (G.CopyOut conv args) $$
98 entry_has_no_pred = case Z.lookupBlockEnv preds (Z.lg_entry g) of
100 Just s -> isEmptyUniqSet s
104 in case Z.lookupBlockEnv preds id of
106 Just s -> if sizeUniqSet s == 1 then
107 Z.extendBlockSet single id
109 in Z.fold_blocks add Z.emptyBlockSet g
110 unique_pred id = Z.elemBlockSet id single_preds
111 cconv_of_conv (G.ConventionStandard conv _) = conv
112 cconv_of_conv (G.ConventionPrivate {}) = CmmCallConv -- XXX totally bogus
114 with_out :: Maybe (G.Convention, CmmActuals) -> G.Last -> SDoc
115 with_out Nothing l = ptext SLIT("??no-arguments??") <+> ppr l
116 with_out (Just (conv, args)) l = last l
117 where last (G.LastCall e k) =
118 hcat [ptext SLIT("... = foreign "),
119 doubleQuotes(ppr conv), space,
120 ppr_target e, parens ( commafy $ map ppr args ),
121 ptext SLIT(" \"safe\""),
122 case k of Nothing -> ptext SLIT(" never returns")
125 last (G.LastReturn) = ppr (CmmReturn args)
126 last (G.LastJump e) = ppr (CmmJump e args)
127 last l = ppr (G.CopyOut conv args) $$ ppr l
128 ppr_target (CmmLit lit) = pprLit lit
129 ppr_target fn' = parens (ppr fn')
130 commafy xs = hsep $ punctuate comma xs