, raGraphColored :: Color.Graph Reg RegClass Reg -- ^ the coalesced and colored graph
, raCoalesced :: UniqFM Reg -- ^ the regs that were coaleced
, raPatched :: [LiveCmmTop] -- ^ code with vregs replaced by hregs
- , raSpillClean :: [LiveCmmTop] -- ^ code with unneeded spill/reloads cleaned out
+ , raSpillClean :: [LiveCmmTop] -- ^ code with unneeded spill\/reloads cleaned out
, raFinal :: [NatCmmTop] -- ^ final code
- , raSRMs :: (Int, Int, Int) } -- ^ spill/reload/reg-reg moves present in this code
+ , raSRMs :: (Int, Int, Int) } -- ^ spill\/reload\/reg-reg moves present in this code
instance Outputable RegAllocStats where
in vcat [outSpills, outLife, outConflict, outScatter]
--- | Dump a table of how many spill loads / stores were inserted for each vreg.
+-- | Dump a table of how many spill loads \/ stores were inserted for each vreg.
pprStatsSpills
:: [RegAllocStats] -> SDoc
= let
finals = [ s | s@RegAllocStatsColored{} <- stats]
- -- sum up how many stores/loads/reg-reg-moves were left in the code
+ -- sum up how many stores\/loads\/reg-reg-moves were left in the code
total = foldl' addSRM (0, 0, 0)
$ map raSRMs finals
, (fake3, "#aa00aa")
, (fake4, "#ff0055")
, (fake5, "#5500ff") ]
-#endif
-- reg colors for x86_64
-#if x86_64_TARGET_ARCH
+#elif x86_64_TARGET_ARCH
regDotColor :: Reg -> SDoc
regDotColor reg
= let Just str = lookupUFM regColors reg
, (r15, "#002080") ]
++ zip (map RealReg [16..31]) (repeat "red")
-#endif
-- reg colors for ppc
-#if powerpc_TARGET_ARCH
+#elif powerpc_TARGET_ARCH
regDotColor :: Reg -> SDoc
regDotColor reg
= case regClass reg of
RcInteger -> text "blue"
RcFloat -> text "red"
+ RcDouble -> text "green"
+
+#else
+#error ToDo: regDotColor
#endif