Safe Haskell | None |
---|---|
Language | Haskell2010 |
- data Subst = Subst InScopeSet IdSubstEnv TvSubstEnv CvSubstEnv
- type TvSubstEnv = TyVarEnv Type
- type IdSubstEnv = IdEnv CoreExpr
- data InScopeSet
- deShadowBinds :: CoreProgram -> CoreProgram
- substSpec :: Subst -> Id -> RuleInfo -> RuleInfo
- substRulesForImportedIds :: Subst -> [CoreRule] -> [CoreRule]
- substTy :: Subst -> Type -> Type
- substCo :: Subst -> Coercion -> Coercion
- substExpr :: SDoc -> Subst -> CoreExpr -> CoreExpr
- substExprSC :: SDoc -> Subst -> CoreExpr -> CoreExpr
- substBind :: Subst -> CoreBind -> (Subst, CoreBind)
- substBindSC :: Subst -> CoreBind -> (Subst, CoreBind)
- substUnfolding :: Subst -> Unfolding -> Unfolding
- substUnfoldingSC :: Subst -> Unfolding -> Unfolding
- lookupIdSubst :: SDoc -> Subst -> Id -> CoreExpr
- lookupTCvSubst :: Subst -> TyVar -> Type
- substIdOcc :: Subst -> Id -> Id
- substTickish :: Subst -> Tickish Id -> Tickish Id
- substDVarSet :: Subst -> DVarSet -> DVarSet
- emptySubst :: Subst
- mkEmptySubst :: InScopeSet -> Subst
- mkSubst :: InScopeSet -> TvSubstEnv -> CvSubstEnv -> IdSubstEnv -> Subst
- mkOpenSubst :: InScopeSet -> [(Var, CoreArg)] -> Subst
- substInScope :: Subst -> InScopeSet
- isEmptySubst :: Subst -> Bool
- extendIdSubst :: Subst -> Id -> CoreExpr -> Subst
- extendIdSubstList :: Subst -> [(Id, CoreExpr)] -> Subst
- extendTCvSubst :: TCvSubst -> TyCoVar -> Type -> TCvSubst
- extendTvSubstList :: Subst -> [(TyVar, Type)] -> Subst
- extendSubst :: Subst -> Var -> CoreArg -> Subst
- extendSubstList :: Subst -> [(Var, CoreArg)] -> Subst
- extendSubstWithVar :: Subst -> Var -> Var -> Subst
- zapSubstEnv :: Subst -> Subst
- addInScopeSet :: Subst -> VarSet -> Subst
- extendInScope :: Subst -> Var -> Subst
- extendInScopeList :: Subst -> [Var] -> Subst
- extendInScopeIds :: Subst -> [Id] -> Subst
- isInScope :: Var -> Subst -> Bool
- setInScope :: Subst -> InScopeSet -> Subst
- delBndr :: Subst -> Var -> Subst
- delBndrs :: Subst -> [Var] -> Subst
- substBndr :: Subst -> Var -> (Subst, Var)
- substBndrs :: Subst -> [Var] -> (Subst, [Var])
- substRecBndrs :: Subst -> [Id] -> (Subst, [Id])
- cloneBndr :: Subst -> Unique -> Var -> (Subst, Var)
- cloneBndrs :: Subst -> UniqSupply -> [Var] -> (Subst, [Var])
- cloneIdBndr :: Subst -> UniqSupply -> Id -> (Subst, Id)
- cloneIdBndrs :: Subst -> UniqSupply -> [Id] -> (Subst, [Id])
- cloneRecIdBndrs :: Subst -> UniqSupply -> [Id] -> (Subst, [Id])
- simpleOptPgm :: DynFlags -> Module -> CoreProgram -> [CoreRule] -> [CoreVect] -> IO (CoreProgram, [CoreRule], [CoreVect])
- simpleOptExpr :: CoreExpr -> CoreExpr
- simpleOptExprWith :: Subst -> InExpr -> OutExpr
- exprIsConApp_maybe :: InScopeEnv -> CoreExpr -> Maybe (DataCon, [Type], [CoreExpr])
- exprIsLiteral_maybe :: InScopeEnv -> CoreExpr -> Maybe Literal
- exprIsLambda_maybe :: InScopeEnv -> CoreExpr -> Maybe (Var, CoreExpr, [Tickish Id])
Main data types
A substitution environment, containing Id
, TyVar
, and CoVar
substitutions.
Some invariants apply to how you use the substitution:
- The in-scope set contains at least those
Id
s andTyVar
s that will be in scope after applying the substitution to a term. Precisely, the in-scope set must be a superset of the free vars of the substitution range that might possibly clash with locally-bound variables in the thing being substituted in. - You may apply the substitution only once
There are various ways of setting up the in-scope set such that the first of these invariants hold:
- Arrange that the in-scope set really is all the things in scope
- Arrange that it's the free vars of the range of the substitution
- Make it empty, if you know that all the free vars of the substitution are fresh, and hence can't possibly clash
data InScopeSet Source #
A set of variables that are in scope at some point "Secrets of the Glasgow Haskell Compiler inliner" Section 3. provides the motivation for this abstraction.
Substituting into expressions and related types
deShadowBinds :: CoreProgram -> CoreProgram Source #
De-shadowing the program is sometimes a useful pre-pass. It can be done simply by running over the bindings with an empty substitution, because substitution returns a result that has no-shadowing guaranteed.
(Actually, within a single type there might still be shadowing, because
substTy
is a no-op for the empty substitution, but that's probably OK.)
- Aug 09
- This function is not used in GHC at the moment, but seems so short and simple that I'm going to leave it here
substUnfolding :: Subst -> Unfolding -> Unfolding Source #
Substitutes for the Id
s within an unfolding
substUnfoldingSC :: Subst -> Unfolding -> Unfolding Source #
Substitutes for the Id
s within an unfolding
Operations on substitutions
emptySubst :: Subst Source #
mkEmptySubst :: InScopeSet -> Subst Source #
mkSubst :: InScopeSet -> TvSubstEnv -> CvSubstEnv -> IdSubstEnv -> Subst Source #
mkOpenSubst :: InScopeSet -> [(Var, CoreArg)] -> Subst Source #
Simultaneously substitute for a bunch of variables No left-right shadowing ie the substitution for (x y. e) a1 a2 so neither x nor y scope over a1 a2
substInScope :: Subst -> InScopeSet Source #
Find the in-scope set: see CoreSubst
isEmptySubst :: Subst -> Bool Source #
extendIdSubstList :: Subst -> [(Id, CoreExpr)] -> Subst Source #
Adds multiple Id
substitutions to the Subst
: see also extendIdSubst
extendSubst :: Subst -> Var -> CoreArg -> Subst Source #
Add a substitution appropriate to the thing being substituted
(whether an expression, type, or coercion). See also
extendIdSubst
, extendTvSubst
, extendCvSubst
extendSubstList :: Subst -> [(Var, CoreArg)] -> Subst Source #
Add a substitution as appropriate to each of the terms being
substituted (whether expressions, types, or coercions). See also
extendSubst
.
zapSubstEnv :: Subst -> Subst Source #
addInScopeSet :: Subst -> VarSet -> Subst Source #
Add the Var
to the in-scope set, but do not remove
any existing substitutions for it
extendInScope :: Subst -> Var -> Subst Source #
Add the Var
to the in-scope set: as a side effect,
and remove any existing substitutions for it
extendInScopeList :: Subst -> [Var] -> Subst Source #
Add the Var
s to the in-scope set: see also extendInScope
extendInScopeIds :: Subst -> [Id] -> Subst Source #
Optimized version of extendInScopeList
that can be used if you are certain
all the things being added are Id
s and hence none are TyVar
s or CoVar
s
setInScope :: Subst -> InScopeSet -> Subst Source #
Substituting and cloning binders
substRecBndrs :: Subst -> [Id] -> (Subst, [Id]) Source #
Substitute in a mutually recursive group of Id
s
cloneBndrs :: Subst -> UniqSupply -> [Var] -> (Subst, [Var]) Source #
cloneIdBndr :: Subst -> UniqSupply -> Id -> (Subst, Id) Source #
cloneIdBndrs :: Subst -> UniqSupply -> [Id] -> (Subst, [Id]) Source #
Applies cloneIdBndr
to a number of Id
s, accumulating a final
substitution from left to right
cloneRecIdBndrs :: Subst -> UniqSupply -> [Id] -> (Subst, [Id]) Source #
Clone a mutually recursive group of Id
s
Simple expression optimiser
simpleOptPgm :: DynFlags -> Module -> CoreProgram -> [CoreRule] -> [CoreVect] -> IO (CoreProgram, [CoreRule], [CoreVect]) Source #
simpleOptExpr :: CoreExpr -> CoreExpr Source #
simpleOptExprWith :: Subst -> InExpr -> OutExpr Source #
exprIsConApp_maybe :: InScopeEnv -> CoreExpr -> Maybe (DataCon, [Type], [CoreExpr]) Source #
Returns Just (dc, [t1..tk], [x1..xn])
if the argument expression is
a *saturated* constructor application of the form dc t1..tk x1 .. xn
,
where t1..tk are the *universally-qantified* type args of dc
exprIsLiteral_maybe :: InScopeEnv -> CoreExpr -> Maybe Literal Source #
exprIsLambda_maybe :: InScopeEnv -> CoreExpr -> Maybe (Var, CoreExpr, [Tickish Id]) Source #