%
+% (c) The University of Glasgow 2006
% (c) The GRASP/AQUA Project, Glasgow University, 1997-1998
%
\section[BasicTypes]{Miscellanous types}
TupCon(..), tupleParens,
OccInfo(..), seqOccInfo, isFragileOcc, isOneOcc,
- isDeadOcc, isLoopBreaker, isNoOcc,
+ isDeadOcc, isLoopBreaker, isNonRuleLoopBreaker, isNoOcc,
InsideLam, insideLam, notInsideLam,
OneBranch, oneBranch, notOneBranch,
ppr InfixN = ptext SLIT("infix")
------------------------
-maxPrecedence = (9::Int)
+maxPrecedence :: Int
+maxPrecedence = 9
+defaultFixity :: Fixity
defaultFixity = Fixity maxPrecedence InfixL
negateFixity, funTyFixity :: Fixity
%* *
%************************************************************************
-\begin{code}
+\begin{code}
data RecFlag = Recursive
| NonRecursive
deriving( Eq )
data OccInfo
= NoOccInfo -- Many occurrences, or unknown
- | RulesOnly -- Occurs only in the RHS of one or more rules
-
| IAmDead -- Marks unused variables. Sometimes useful for
-- lambda and case-bound variables.
- | OneOcc !InsideLam -- Occurs exactly once, not inside a rule
- !OneBranch
- !InterestingCxt
+ | OneOcc -- Occurs exactly once, not inside a rule
+ !InsideLam
+ !OneBranch
+ !InterestingCxt
| IAmALoopBreaker -- Used by the occurrence analyser to mark loop-breakers
-- in a group of recursive definitions
+ !RulesOnly -- True <=> This is a weak or rules-only loop breaker
+ -- See OccurAnal Note [Weak loop breakers]
+
+type RulesOnly = Bool
+\end{code}
+
+\begin{code}
isNoOcc :: OccInfo -> Bool
isNoOcc NoOccInfo = True
-isNoOcc other = False
+isNoOcc _ = False
seqOccInfo :: OccInfo -> ()
seqOccInfo occ = occ `seq` ()
type InsideLam = Bool -- True <=> Occurs inside a non-linear lambda
-- Substituting a redex for this occurrence is
-- dangerous because it might duplicate work.
+insideLam, notInsideLam :: InsideLam
insideLam = True
notInsideLam = False
-----------------
type OneBranch = Bool -- True <=> Occurs in only one case branch
-- so no code-duplication issue to worry about
+oneBranch, notOneBranch :: OneBranch
oneBranch = True
notOneBranch = False
isLoopBreaker :: OccInfo -> Bool
-isLoopBreaker IAmALoopBreaker = True
-isLoopBreaker other = False
+isLoopBreaker (IAmALoopBreaker _) = True
+isLoopBreaker _ = False
+
+isNonRuleLoopBreaker :: OccInfo -> Bool
+isNonRuleLoopBreaker (IAmALoopBreaker False) = True -- Loop-breaker that breaks a non-rule cycle
+isNonRuleLoopBreaker _ = False
isDeadOcc :: OccInfo -> Bool
isDeadOcc IAmDead = True
-isDeadOcc other = False
+isDeadOcc _ = False
+isOneOcc :: OccInfo -> Bool
isOneOcc (OneOcc _ _ _) = True
-isOneOcc other = False
+isOneOcc _ = False
isFragileOcc :: OccInfo -> Bool
isFragileOcc (OneOcc _ _ _) = True
-isFragileOcc other = False
+isFragileOcc _ = False
\end{code}
\begin{code}
instance Outputable OccInfo where
-- only used for debugging; never parsed. KSW 1999-07
- ppr NoOccInfo = empty
- ppr RulesOnly = ptext SLIT("RulesOnly")
- ppr IAmALoopBreaker = ptext SLIT("LoopBreaker")
- ppr IAmDead = ptext SLIT("Dead")
+ ppr NoOccInfo = empty
+ ppr (IAmALoopBreaker ro) = ptext SLIT("LoopBreaker") <> if ro then char '!' else empty
+ ppr IAmDead = ptext SLIT("Dead")
ppr (OneOcc inside_lam one_branch int_cxt)
= ptext SLIT("Once") <> pp_lam <> pp_br <> pp_args
where
| NotMarkedStrict
deriving( Eq )
+isMarkedUnboxed :: StrictnessMark -> Bool
isMarkedUnboxed MarkedUnboxed = True
-isMarkedUnboxed other = False
+isMarkedUnboxed _ = False
+isMarkedStrict :: StrictnessMark -> Bool
isMarkedStrict NotMarkedStrict = False
-isMarkedStrict other = True -- All others are strict
+isMarkedStrict _ = True -- All others are strict
instance Outputable StrictnessMark where
ppr MarkedStrict = ptext SLIT("!")
\begin{code}
data SuccessFlag = Succeeded | Failed
+instance Outputable SuccessFlag where
+ ppr Succeeded = ptext SLIT("Succeeded")
+ ppr Failed = ptext SLIT("Failed")
+
successIf :: Bool -> SuccessFlag
successIf True = Succeeded
successIf False = Failed
-- is enabled, it will definitely actually happen
deriving( Eq )
+defaultInlineSpec, alwaysInlineSpec, neverInlineSpec :: InlineSpec
+
defaultInlineSpec = Inline AlwaysActive False -- Inlining is OK, but not forced
alwaysInlineSpec = Inline AlwaysActive True -- INLINE always
neverInlineSpec = Inline NeverActive False -- NOINLINE
instance Outputable Activation where
- ppr AlwaysActive = empty -- The default
+ ppr NeverActive = ptext SLIT("NEVER")
+ ppr AlwaysActive = ptext SLIT("ALWAYS")
ppr (ActiveBefore n) = brackets (char '~' <> int n)
ppr (ActiveAfter n) = brackets (int n)
- ppr NeverActive = ptext SLIT("NEVER")
instance Outputable InlineSpec where
- ppr (Inline act True) = ptext SLIT("INLINE") <> ppr act
- ppr (Inline act False) = ptext SLIT("NOINLINE") <> ppr act
+ ppr (Inline act is_inline)
+ | is_inline = ptext SLIT("INLINE")
+ <> case act of
+ AlwaysActive -> empty
+ _ -> ppr act
+ | otherwise = ptext SLIT("NOINLINE")
+ <> case act of
+ NeverActive -> empty
+ _ -> ppr act
isActive :: CompilerPhase -> Activation -> Bool
-isActive p NeverActive = False
-isActive p AlwaysActive = True
+isActive _ NeverActive = False
+isActive _ AlwaysActive = True
isActive p (ActiveAfter n) = p <= n
isActive p (ActiveBefore n) = p > n
isNeverActive, isAlwaysActive :: Activation -> Bool
isNeverActive NeverActive = True
-isNeverActive act = False
+isNeverActive _ = False
isAlwaysActive AlwaysActive = True
-isAlwaysActive other = False
+isAlwaysActive _ = False
\end{code}