| Safe Haskell | None |
|---|---|
| Language | Haskell2010 |
Agda.TypeChecking.Rewriting
Description
Rewriting with arbitrary rules.
The user specifies a relation symbol by the pragma
{-# BUILTIN REWRITE rel #-}
where rel should be of type Δ → (lhs rhs : A) → Set i.
Then the user can add rewrite rules by the pragma
{-# REWRITE q #-}
where q should be a closed term of type Γ → rel us lhs rhs.
We then intend to add a rewrite rule
Γ ⊢ lhs ↦ rhs : B
to the signature where B = A[us/Δ].
To this end, we normalize lhs, which should be of the form
f ts
for a DefFV(ts) = dom(Γ).
The rule q :: Γ ⊢ f ts ↦ rhs : B is added to the signature
to the definition of f.
When reducing a term Ψ ⊢ f vs is stuck, we try the rewrites for f,
by trying to unify vs with ts.
This is for now done by substituting fresh metas Xs for the bound
variables in ts and checking equality with vs
Ψ ⊢ (f ts)[XsΓ] = f vs : B[XsΓ]
If successful (no open metas/constraints), we replace f vs by
rhs[Xs/Γ] and continue reducing.
Synopsis
- requireOptionRewriting :: TCM ()
- verifyBuiltinRewrite :: Term -> Type -> TCM ()
- data RelView = RelView {}
- relView :: Type -> TCM (Maybe RelView)
- addRewriteRule :: QName -> TCM ()
- addRewriteRules :: QName -> RewriteRules -> TCM ()
- rewriteWith :: Type -> Term -> RewriteRule -> Elims -> ReduceM (Either (Blocked Term) Term)
- rewrite :: Blocked_ -> Term -> RewriteRules -> Elims -> ReduceM (Reduced (Blocked Term) Term)
- class NLPatVars a where
- nlPatVarsUnder :: Int -> a -> IntSet
- nlPatVars :: a -> IntSet
- rewArity :: RewriteRule -> Int
- class GetMatchables a where
- getMatchables :: a -> [QName]
Documentation
requireOptionRewriting :: TCM () Source #
verifyBuiltinRewrite :: Term -> Type -> TCM () Source #
Check that the name given to the BUILTIN REWRITE is actually
a relation symbol.
I.e., its type should be of the form Δ → (lhs : A) (rhs : B) → Set ℓ.
Note: we do not care about hiding/non-hiding of lhs and rhs.
Deconstructing a type into Δ → t → t' → core.
Constructors
| RelView | |
Fields
| |
relView :: Type -> TCM (Maybe RelView) Source #
Deconstructing a type into Δ → t → t' → core.
Returns Nothing if not enough argument types.
addRewriteRule :: QName -> TCM () Source #
Add q : Γ → rel us lhs rhs as rewrite rule
Γ ⊢ lhs ↦ rhs : B
to the signature where B = A[us/Δ].
Remember that rel : Δ → A → A → Set i, so
rel us : (lhs rhs : A[us/Δ]) → Set i.
addRewriteRules :: QName -> RewriteRules -> TCM () Source #
Append rewrite rules to a definition.
rewriteWith :: Type -> Term -> RewriteRule -> Elims -> ReduceM (Either (Blocked Term) Term) Source #
rewriteWith t f es rew where f : t
tries to rewrite f es with rew, returning the reduct if successful.
rewrite :: Blocked_ -> Term -> RewriteRules -> Elims -> ReduceM (Reduced (Blocked Term) Term) Source #
rewrite b v rules es tries to rewrite v applied to es with the
rewrite rules rules. b is the default blocking tag.
Auxiliary functions
class NLPatVars a where Source #
Minimal complete definition
rewArity :: RewriteRule -> Int Source #
class GetMatchables a where Source #
Get all symbols that a rewrite rule matches against
Methods
getMatchables :: a -> [QName] Source #
Instances
| GetMatchables RewriteRule Source # | |
Defined in Agda.TypeChecking.Rewriting Methods getMatchables :: RewriteRule -> [QName] Source # | |
| GetMatchables NLPat Source # | |
Defined in Agda.TypeChecking.Rewriting Methods getMatchables :: NLPat -> [QName] Source # | |
| (Foldable f, GetMatchables a) => GetMatchables (f a) Source # | |
Defined in Agda.TypeChecking.Rewriting Methods getMatchables :: f a -> [QName] Source # | |