Portability | semi-portable (MPTCs, FlexibleContexts) |
---|---|
Stability | highly experimental |
Maintainer | wren@community.haskell.org |
This module provides the API of Control.Unification except
using RankedBindingMonad
where appropriate. This module (and
the binding implementations for it) are highly experimental and
subject to change in future versions.
- module Control.Unification.Types
- getFreeVars :: BindingMonad v t m => MutTerm v t -> m [v (MutTerm v t)]
- applyBindings :: (BindingMonad v t m, MonadTrans e, Functor (e m), MonadError (UnificationFailure v t) (e m)) => MutTerm v t -> e m (MutTerm v t)
- freshen :: (BindingMonad v t m, MonadTrans e, Functor (e m), MonadError (UnificationFailure v t) (e m)) => MutTerm v t -> e m (MutTerm v t)
- (===) :: BindingMonad v t m => MutTerm v t -> MutTerm v t -> m Bool
- (=~=) :: BindingMonad v t m => MutTerm v t -> MutTerm v t -> m (Maybe (IntMap Int))
- (=:=) :: (RankedBindingMonad v t m, MonadTrans e, Functor (e m), MonadError (UnificationFailure v t) (e m)) => MutTerm v t -> MutTerm v t -> e m (MutTerm v t)
- equals :: BindingMonad v t m => MutTerm v t -> MutTerm v t -> m Bool
- equiv :: BindingMonad v t m => MutTerm v t -> MutTerm v t -> m (Maybe (IntMap Int))
- unify :: (RankedBindingMonad v t m, MonadTrans e, Functor (e m), MonadError (UnificationFailure v t) (e m)) => MutTerm v t -> MutTerm v t -> e m (MutTerm v t)
Data types, classes, etc
module Control.Unification.Types
Operations on one term
getFreeVars :: BindingMonad v t m => MutTerm v t -> m [v (MutTerm v t)]Source
Walk a term and determine what variables are still free. N.B., this function does not detect cyclic terms (i.e., throw errors), but it will return the correct answer for them in finite time.
:: (BindingMonad v t m, MonadTrans e, Functor (e m), MonadError (UnificationFailure v t) (e m)) | |
=> MutTerm v t | |
-> e m (MutTerm v t) |
Apply the current bindings from the monad so that any remaining
variables in the result must, therefore, be free. N.B., this
expensively clones term structure and should only be performed
when a pure term is needed, or when OccursIn
exceptions must
be forced. This function does preserve sharing, however that
sharing is no longer observed by the monad.
If any cyclic bindings are detected, then an OccursIn
exception
will be thrown.
:: (BindingMonad v t m, MonadTrans e, Functor (e m), MonadError (UnificationFailure v t) (e m)) | |
=> MutTerm v t | |
-> e m (MutTerm v t) |
Freshen all variables in a term, both bound and free. This ensures that the observability of sharing is maintained, while freshening the free variables. N.B., this expensively clones term structure and should only be performed when necessary.
If any cyclic bindings are detected, then an OccursIn
exception
will be thrown.
Operations on two terms
Symbolic names
:: (RankedBindingMonad v t m, MonadTrans e, Functor (e m), MonadError (UnificationFailure v t) (e m)) | |
=> MutTerm v t | |
-> MutTerm v t | |
-> e m (MutTerm v t) |
Textual names
:: BindingMonad v t m | |
=> MutTerm v t | |
-> MutTerm v t | |
-> m Bool |
Determine if two terms are structurally equal. This is essentially
equivalent to (
except that it does not require applying
bindings before comparing, so it is more efficient. N.B., this
function does not consider alpha-variance, and thus variables
with different names are considered unequal. Cf., ==
)equiv
.
Determine if two terms are structurally equivalent; that is, structurally equal modulo renaming of free variables. Returns a mapping from variable IDs of the left term to variable IDs of the right term, indicating the renaming used.
:: (RankedBindingMonad v t m, MonadTrans e, Functor (e m), MonadError (UnificationFailure v t) (e m)) | |
=> MutTerm v t | |
-> MutTerm v t | |
-> e m (MutTerm v t) |
Unify two terms, or throw an error with an explanation of why unification failed. Since bindings are stored in the monad, the two input terms and the output term are all equivalent if unification succeeds. However, the returned value makes use of aggressive opportunistic observable sharing, so it will be more efficient to use it in future calculations than either argument.