\begin{code}
module CostCentre (
- CostCentre, CcKind, IsDupdCC{-ToDo:rm-}, IsCafCC(..),
+ CostCentre(..), CcName, IsDupdCC(..), IsCafCC(..),
+ -- All abstract except to friend: ParseIface.y
+
CostCentreStack,
noCCS, subsumedCCS, currentCCS, overheadCCS, dontCareCCS,
noCostCentre, noCCAttached,
noCCSAttached, isCurrentCCS, isSubsumedCCS, currentOrSubsumedCCS,
- mkUserCC, mkAutoCC, mkDictCC, mkAllCafsCC, mkAllDictsCC,
+ mkUserCC, mkAutoCC, mkAllCafsCC,
mkSingletonCCS, cafifyCC, dupifyCC,
- isCafCC, isDictCC, isDupdCC, isEmptyCC, isCafCCS,
+ isCafCC, isDupdCC, isEmptyCC, isCafCCS,
isSccCountCostCentre,
sccAbleCostCentre,
ccFromThisModule,
- ccMentionsId,
- pprCostCentreDecl, pprCostCentreStackDecl,
+ pprCostCentreDecl, pprCostCentreStackDecl, pprCostCentreCore,
cmpCostCentre -- used for removing dups in a list
) where
#include "HsVersions.h"
-import Var ( externallyVisibleId, GenId, Id )
-import CStrings ( identToC, stringToC )
-import Name ( getOccString )
+import Var ( Id )
+import Name ( UserFS, EncodedFS, encodeFS, decode,
+ getOccName, occNameFS
+ )
+import Module ( Module, pprModule, moduleUserString )
import Outputable
-import BasicTypes ( moduleString )
-import Util ( panic, assertPanic, thenCmp )
+import Util ( thenCmp )
\end{code}
A Cost Centre Stack is something that can be attached to a closure.
A Cost Centre is the argument of an _scc_ expression.
\begin{code}
+type Group = FAST_STRING -- "Group" that this CC is in; eg directory
+
data CostCentre
= NoCostCentre -- Having this constructor avoids having
-- to use "Maybe CostCentre" all the time.
- | NormalCC CcKind -- CcKind will include a cost-centre name
- FAST_STRING -- Name of module defining this CC.
- FAST_STRING -- "Group" that this CC is in.
- IsDupdCC -- see below
- IsCafCC -- see below
-
- | AllCafsCC FAST_STRING -- Ditto for CAFs.
- FAST_STRING -- We record module and group names.
+ | NormalCC {
+ cc_name :: CcName, -- Name of the cost centre itself
+ cc_mod :: Module, -- Name of module defining this CC.
+ cc_grp :: Group, -- "Group" that this CC is in.
+ cc_is_dupd :: IsDupdCC, -- see below
+ cc_is_caf :: IsCafCC -- see below
+ }
+
+ | AllCafsCC {
+ cc_mod :: Module, -- Name of module defining this CC.
+ cc_grp :: Group -- "Group" that this CC is in
-- Again, one "big" CAF cc per module, where all
-- CAF costs are attributed unless the user asked for
-- per-individual-CAF cost attribution.
+ }
- | AllDictsCC FAST_STRING -- Ditto for dictionaries.
- FAST_STRING -- We record module and group names.
- -- Again, one "big" DICT cc per module, where all
- -- DICT costs are attributed unless the user asked for
- -- per-individual-DICT cost attribution.
- IsDupdCC -- see below
-
-data CcKind
- = UserCC FAST_STRING -- Supplied by user: String is the cc name
- | AutoCC Id -- CC -auto-magically inserted for that Id
- | DictCC Id
+type CcName = EncodedFS
data IsDupdCC
- = AnOriginalCC -- This says how the CC is *used*. Saying that
- | ADupdCC -- it is ADupdCC doesn't make it a different
+ = OriginalCC -- This says how the CC is *used*. Saying that
+ | DupdCC -- it is DupdCC doesn't make it a different
-- CC, just that it a sub-expression which has
-- been moved ("dupd") into a different scope.
--
-- "original" one.
--
-- In the papers, it's called "SCCsub",
- -- i.e. SCCsub CC == SCC ADupdCC,
+ -- i.e. SCCsub CC == SCC DupdCC,
-- but we are trying to avoid confusion between
-- "subd" and "subsumed". So we call the former
-- "dupd".
-data IsCafCC
- = IsCafCC
- | IsNotCafCC
+data IsCafCC = CafCC | NotCafCC
\end{code}
WILL: Would there be any merit to recording ``I am now using a
isCafCCS (SingletonCCS cc) = isCafCC cc
isCafCCS _ = False
-isDictCCS (SingletonCCS cc) = isDictCC cc
-isDictCCS _ = False
-
currentOrSubsumedCCS SubsumedCCS = True
currentOrSubsumedCCS CurrentCCS = True
currentOrSubsumedCCS _ = False
Building cost centres
\begin{code}
-mkUserCC :: FAST_STRING -> FAST_STRING -> FAST_STRING -> CostCentre
+mkUserCC :: UserFS -> Module -> Group -> CostCentre
mkUserCC cc_name module_name group_name
- = NormalCC (UserCC cc_name) module_name group_name
- AnOriginalCC IsNotCafCC{-might be changed-}
-
-mkDictCC, mkAutoCC :: Id -> FAST_STRING -> FAST_STRING -> IsCafCC -> CostCentre
+ = NormalCC { cc_name = encodeFS cc_name,
+ cc_mod = module_name, cc_grp = group_name,
+ cc_is_dupd = OriginalCC, cc_is_caf = NotCafCC {-might be changed-}
+ }
-mkDictCC id module_name group_name is_caf
- = NormalCC (DictCC id) module_name group_name
- AnOriginalCC is_caf
+mkAutoCC :: Id -> Module -> Group -> IsCafCC -> CostCentre
mkAutoCC id module_name group_name is_caf
- = NormalCC (AutoCC id) module_name group_name
- AnOriginalCC is_caf
+ = NormalCC { cc_name = occNameFS (getOccName id),
+ cc_mod = module_name, cc_grp = group_name,
+ cc_is_dupd = OriginalCC, cc_is_caf = is_caf
+ }
-mkAllCafsCC m g = AllCafsCC m g
-mkAllDictsCC m g is_dupd
- = AllDictsCC m g (if is_dupd then ADupdCC else AnOriginalCC)
+mkAllCafsCC m g = AllCafsCC { cc_mod = m, cc_grp = g }
mkSingletonCCS :: CostCentre -> CostCentreStack
mkSingletonCCS cc = SingletonCCS cc
cafifyCC, dupifyCC :: CostCentre -> CostCentre
-cafifyCC cc@(AllDictsCC _ _ _) = cc -- ToDo ???
-cafifyCC (NormalCC kind m g is_dupd is_caf)
- = ASSERT(not_a_calf_already is_caf)
- NormalCC kind m g is_dupd IsCafCC
+cafifyCC cc@(NormalCC {cc_is_caf = is_caf})
+ = ASSERT(not_a_caf_already is_caf)
+ cc {cc_is_caf = CafCC}
where
- not_a_calf_already IsCafCC = False
- not_a_calf_already _ = True
+ not_a_caf_already CafCC = False
+ not_a_caf_already _ = True
cafifyCC cc = pprPanic "cafifyCC" (ppr cc)
-dupifyCC (AllDictsCC m g _) = AllDictsCC m g ADupdCC
-dupifyCC (NormalCC kind m g is_dupd is_caf)
- = NormalCC kind m g ADupdCC is_caf
-dupifyCC cc = pprPanic "dupifyCC" (ppr cc)
+dupifyCC cc = cc {cc_is_dupd = DupdCC}
-isEmptyCC, isCafCC, isDictCC, isDupdCC :: CostCentre -> Bool
+isEmptyCC, isCafCC, isDupdCC :: CostCentre -> Bool
isEmptyCC (NoCostCentre) = True
isEmptyCC _ = False
-isCafCC (AllCafsCC _ _) = True
-isCafCC (NormalCC _ _ _ _ IsCafCC) = True
-isCafCC _ = False
-
-isDictCC (AllDictsCC _ _ _) = True
-isDictCC (NormalCC (DictCC _) _ _ _ _) = True
-isDictCC _ = False
+isCafCC (AllCafsCC {}) = True
+isCafCC (NormalCC {cc_is_caf = CafCC}) = True
+isCafCC _ = False
-isDupdCC (AllDictsCC _ _ ADupdCC) = True
-isDupdCC (NormalCC _ _ _ ADupdCC _) = True
-isDupdCC _ = False
+isDupdCC (NormalCC {cc_is_dupd = DupdCC}) = True
+isDupdCC _ = False
isSccCountCostCentre :: CostCentre -> Bool
-- Is this a cost-centre which records scc counts
#endif
isSccCountCostCentre cc | isCafCC cc = False
| isDupdCC cc = False
- | isDictCC cc = True
| otherwise = True
sccAbleCostCentre :: CostCentre -> Bool
sccAbleCostCentre cc | isCafCC cc = False
| otherwise = True
-ccFromThisModule :: CostCentre -> FAST_STRING{-module name-} -> Bool
-
-ccFromThisModule (NormalCC _ m _ _ _) mod_name = m == mod_name
-ccFromThisModule (AllCafsCC m _) mod_name = m == mod_name
-ccFromThisModule (AllDictsCC m _ _) mod_name = m == mod_name
-\end{code}
-
-\begin{code}
-ccMentionsId :: CostCentre -> Maybe Id
-
-ccMentionsId (NormalCC (AutoCC id) _ _ _ _) = Just id
-ccMentionsId (NormalCC (DictCC id) _ _ _ _) = Just id
-ccMentionsId other = Nothing
+ccFromThisModule :: CostCentre -> Module -> Bool
+ccFromThisModule cc m = cc_mod cc == m
\end{code}
\begin{code}
cmpCostCentre :: CostCentre -> CostCentre -> Ordering
-cmpCostCentre (AllCafsCC m1 _) (AllCafsCC m2 _) = m1 `compare` m2
-cmpCostCentre (AllDictsCC m1 _ _) (AllDictsCC m2 _ _) = m1 `compare` m2
+cmpCostCentre (AllCafsCC {cc_mod = m1}) (AllCafsCC {cc_mod = m2}) = m1 `compare` m2
-cmpCostCentre (NormalCC k1 m1 _ _ c1) (NormalCC k2 m2 _ _ c2)
+cmpCostCentre (NormalCC {cc_name = n1, cc_mod = m1, cc_is_caf = c1})
+ (NormalCC {cc_name = n2, cc_mod = m2, cc_is_caf = c2})
-- first key is module name, then we use "kinds" (which include
-- names) and finally the caf flag
- = (m1 `compare` m2) `thenCmp` (k1 `cmp_kind` k2) `thenCmp` (c1 `cmp_caf` c2)
+ = (m1 `compare` m2) `thenCmp` (n1 `compare` n2) `thenCmp` (c1 `cmp_caf` c2)
cmpCostCentre other_1 other_2
= let
in
if tag1 _LT_ tag2 then LT else GT
where
- tag_CC (NormalCC _ _ _ _ _) = (ILIT(1) :: FAST_INT)
- tag_CC (AllCafsCC _ _) = ILIT(2)
- tag_CC (AllDictsCC _ _ _) = ILIT(3)
-
-cmp_kind (UserCC n1) (UserCC n2) = n1 `compare` n2
-cmp_kind (AutoCC i1) (AutoCC i2) = i1 `compare` i2
-cmp_kind (DictCC i1) (DictCC i2) = i1 `compare` i2
-cmp_kind other_1 other_2
- = let
- tag1 = tag_CcKind other_1
- tag2 = tag_CcKind other_2
- in
- if tag1 _LT_ tag2 then LT else GT
- where
- tag_CcKind (UserCC _) = (ILIT(1) :: FAST_INT)
- tag_CcKind (AutoCC _) = ILIT(2)
- tag_CcKind (DictCC _) = ILIT(3)
-
-cmp_caf IsNotCafCC IsCafCC = LT
-cmp_caf IsNotCafCC IsNotCafCC = EQ
-cmp_caf IsCafCC IsCafCC = EQ
-cmp_caf IsCafCC IsNotCafCC = GT
+ tag_CC (NormalCC {}) = (ILIT(1) :: FAST_INT)
+ tag_CC (AllCafsCC {}) = ILIT(2)
+
+cmp_caf NotCafCC CafCC = LT
+cmp_caf NotCafCC NotCafCC = EQ
+cmp_caf CafCC CafCC = EQ
+cmp_caf CafCC NotCafCC = GT
\end{code}
-----------------------------------------------------------------------------
OverheadCCS -> ptext SLIT("CCS_OVERHEAD")
DontCareCCS -> ptext SLIT("CCS_DONTZuCARE")
SubsumedCCS -> ptext SLIT("CCS_SUBSUMED")
- SingletonCCS cc ->
- getPprStyle $ \sty ->
- if (codeStyle sty)
- then ptext SLIT("CCS_") <>
- identToC (_PK_ (costCentreStr cc))
- else ptext SLIT("CCS.") <> text (costCentreStr cc)
+ SingletonCCS cc -> ptext SLIT("CCS_") <> ppr cc
pprCostCentreStackDecl :: CostCentreStack -> SDoc
-
pprCostCentreStackDecl ccs@(SingletonCCS cc)
= let
- (mod_name, grp_name, is_subsumed, externally_visible) = get_cc_info cc
+ is_subsumed = ccSubsumed cc
in
hcat [ ptext SLIT("CCS_DECLARE"), char '(',
ppr ccs, comma, -- better be codeStyle
ppCostCentreLbl cc, comma,
ptext is_subsumed, comma,
- if externally_visible
- then empty
- else ptext SLIT("static"),
+ empty, -- Now always externally visible
text ");"
]
instance Outputable CostCentre where
ppr cc = getPprStyle $ \ sty ->
if codeStyle sty
- then ppCostCentreLbl cc
- else
- if ifaceStyle sty
- then ppCostCentreIface cc
- else text (costCentreStr cc)
-
-ppCostCentreLbl cc = ptext SLIT("CC_") <> identToC (_PK_ (costCentreStr cc))
-ppCostCentreIface cc = doubleQuotes (text (costCentreStr cc))
-ppCostCentreName cc = doubleQuotes (text (stringToC (costCentreName cc)))
-
-costCentreStr (NoCostCentre) = "NO_CC"
-costCentreStr (AllCafsCC m _) = "CAFs." ++ _UNPK_ m
-costCentreStr (AllDictsCC m _ d) = "DICTs." ++ _UNPK_ m
-costCentreStr (NormalCC kind mod_name grp_name is_dupd is_caf)
- = case is_caf of { IsCafCC -> "CAF:"; _ -> "" }
- ++ moduleString mod_name
- ++ case kind of { UserCC name -> _UNPK_ name;
- AutoCC id -> getOccString id ++ "/AUTO";
- DictCC id -> getOccString id ++ "/DICT"
- }
- -- ToDo: group name
- ++ case is_dupd of { ADupdCC -> "/DUPD"; _ -> "" }
-
--- This is the name to go in the cost centre declaration
-costCentreName (NoCostCentre) = "NO_CC"
-costCentreName (AllCafsCC _ _) = "CAFs_in_..."
-costCentreName (AllDictsCC _ _ _) = "DICTs_in_..."
-costCentreName (NormalCC kind mod_name grp_name is_dupd is_caf)
- = case is_caf of { IsCafCC -> "CAF:"; _ -> "" }
- ++ case kind of { UserCC name -> _UNPK_ name;
- AutoCC id -> getOccString id;
- DictCC id -> getOccString id
- }
+ then ppCostCentreLbl cc
+ else text (costCentreUserName cc)
+
+-- Printing in an interface file or in Core generally
+pprCostCentreCore (AllCafsCC {cc_mod = m, cc_grp = g})
+ = text "__sccC" <+> braces (pprModule m <+> doubleQuotes (ptext g))
+pprCostCentreCore (NormalCC {cc_name = n, cc_mod = m, cc_grp = g,
+ cc_is_caf = caf, cc_is_dupd = dup})
+ = text "__scc" <+> braces (hsep [
+ ptext n,
+ pprModule m,
+ doubleQuotes (ptext g),
+ pp_dup dup,
+ pp_caf caf
+ ])
+
+pp_dup DupdCC = char '!'
+pp_dup other = empty
+
+pp_caf CafCC = text "__C"
+pp_caf other = empty
+
+
+-- Printing as a C label
+ppCostCentreLbl (NoCostCentre) = text "CC_NONE"
+ppCostCentreLbl (AllCafsCC {cc_mod = m}) = text "CC_CAFs_" <> pprModule m
+ppCostCentreLbl (NormalCC {cc_name = n, cc_mod = m}) = text "CC_" <> pprModule m <> ptext n
+
+-- This is the name to go in the user-displayed string,
+-- recorded in the cost centre declaration
+costCentreUserName (NoCostCentre) = "NO_CC"
+costCentreUserName (AllCafsCC {}) = "CAFs_in_..."
+costCentreUserName (NormalCC {cc_name = name, cc_is_caf = is_caf})
+ = case is_caf of { CafCC -> "CAF:"; _ -> "" } ++ decode (_UNPK_ name)
\end{code}
Cost Centre Declarations
= if is_local then
hcat [
ptext SLIT("CC_DECLARE"),char '(',
- cc_ident, comma,
- ppCostCentreName cc, comma,
- pp_str mod_name, comma,
- pp_str grp_name, comma,
- ptext is_subsumed, comma,
- if externally_visible
- then empty
- else ptext SLIT("static"),
+ cc_ident, comma,
+ doubleQuotes (text (costCentreUserName cc)), comma,
+ doubleQuotes (text (moduleUserString mod_name)), comma,
+ doubleQuotes (ptext grp_name), comma,
+ ptext is_subsumed, comma,
+ empty, -- Now always externally visible
text ");"]
else
hcat [ ptext SLIT("CC_EXTERN"),char '(', cc_ident, text ");" ]
where
- cc_ident = ppCostCentreLbl cc
-
- pp_str s = doubleQuotes (ptext s)
-
- (mod_name, grp_name, is_subsumed, externally_visible)
- = get_cc_info cc
-
-
-get_cc_info :: CostCentre ->
- (FAST_STRING, -- module name
- FAST_STRING, -- group name
- FAST_STRING, -- subsumed value
- Bool) -- externally visible
-
-get_cc_info cc
- = case cc of
- AllCafsCC m g -> (m, g, cc_IS_CAF, True)
-
- AllDictsCC m g _ -> (m, g, cc_IS_DICT, True)
-
- NormalCC (DictCC i) m g is_dupd is_caf
- -> (m, g, cc_IS_DICT, externallyVisibleId i)
-
- NormalCC x m g is_dupd is_caf
- -> (m, g, do_caf is_caf,
- case x of { UserCC _ -> True; AutoCC i -> externallyVisibleId i})
- where
- cc_IS_CAF = SLIT("CC_IS_CAF")
- cc_IS_DICT = SLIT("CC_IS_DICT")
- cc_IS_BORING = SLIT("CC_IS_BORING")
-
- do_caf IsCafCC = cc_IS_CAF
- do_caf IsNotCafCC = cc_IS_BORING
+ cc_ident = ppCostCentreLbl cc
+ mod_name = cc_mod cc
+ grp_name = cc_grp cc
+ is_subsumed = ccSubsumed cc
+
+ccSubsumed :: CostCentre -> FAST_STRING -- subsumed value
+ccSubsumed cc | isCafCC cc = SLIT("CC_IS_CAF")
+ | otherwise = SLIT("CC_IS_BORING")
\end{code}