236 lines
7 KiB
Idris
236 lines
7 KiB
Idris
module Quox.Equal
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import public Quox.Syntax
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import public Quox.Definition
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import public Quox.Typing
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import public Control.Monad.Either
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import public Control.Monad.Reader
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import Data.Maybe
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private %inline
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ClashE : EqMode -> Elim q d n -> Elim q d n -> Error q
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ClashE mode = ClashT mode `on` E
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public export
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record Env' q (isGlobal : q -> Type) where
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constructor MakeEnv
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defs : Definitions' q isGlobal
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mode : EqMode
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public export
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0 Env : (q : Type) -> IsQty q => Type
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Env q = Env' q IsGlobal
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public export
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0 HasEnv' : (q : Type) -> (q -> Type) -> (Type -> Type) -> Type
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HasEnv' q isGlobal = MonadReader (Env' q isGlobal)
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public export
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0 HasEnv : (q : Type) -> IsQty q => (Type -> Type) -> Type
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HasEnv q = HasEnv' q IsGlobal
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public export
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0 CanEqual' : (q : Type) -> (q -> Type) -> (Type -> Type) -> Type
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CanEqual' q isGlobal m = (HasErr q m, HasEnv' q isGlobal m)
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public export
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0 CanEqual : (q : Type) -> IsQty q => (Type -> Type) -> Type
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CanEqual q = CanEqual' q IsGlobal
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private %inline
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mode : HasEnv' _ _ m => m EqMode
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mode = asks mode
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private %inline
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clashT : CanEqual' q _ m => Term q d n -> Term q d n -> m a
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clashT s t = throwError $ ClashT !mode s t
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private %inline
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clashE : CanEqual' q _ m => Elim q d n -> Elim q d n -> m a
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clashE e f = throwError $ ClashE !mode e f
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private %inline
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defE : HasEnv' q _ m => Name -> m (Maybe (Elim q d n))
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defE x = asks $ \env => do
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g <- lookup x env.defs
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pure $ (!g.term).get :# g.type.get
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private %inline
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defT : HasEnv' q _ m => Name -> m (Maybe (Term q d n))
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defT x = map E <$> defE x
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export %inline
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compareU' : HasEnv' q _ m => Universe -> Universe -> m Bool
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compareU' i j = pure $
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case !mode of Equal => i == j; Sub => i <= j
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export %inline
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compareU : CanEqual' q _ m => Universe -> Universe -> m ()
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compareU k l = unless !(compareU' k l) $
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throwError $ ClashU !mode k l
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mutual
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private covering
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compareTN' : CanEqual' q _ m => Eq q =>
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(s, t : Term q 0 n) ->
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(0 _ : NotRedexT s) -> (0 _ : NotRedexT t) -> m ()
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compareTN' (E e) (E f) ps pt = compareE0 e f
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-- if either term is a def, try to unfold it
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compareTN' s@(E (F x)) t ps pt = do
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Just s' <- defT x | Nothing => clashT s t
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compareT0 s' t
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compareTN' s t@(E (F y)) ps pt = do
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Just t' <- defT y | Nothing => clashT s t
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compareT0 s t'
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compareTN' s@(E _) t _ _ = clashT s t
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compareTN' (TYPE k) (TYPE l) _ _ = compareU k l
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compareTN' s@(TYPE _) t _ _ = clashT s t
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compareTN' (Pi qty1 _ arg1 res1) (Pi qty2 _ arg2 res2) _ _ = do
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unless (qty1 == qty2) $ throwError $ ClashQ qty1 qty2
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compareT0 arg2 arg1 -- reversed for contravariant domain
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compareTS0 res1 res2
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compareTN' s@(Pi {}) t _ _ = clashT s t
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-- [todo] eta
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compareTN' (Lam _ body1) (Lam _ body2) _ _ =
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local {mode := Equal} $ compareTS0 body1 body2
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compareTN' s@(Lam {}) t _ _ = clashT s t
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compareTN' (CloT {}) _ ps _ = void $ ps IsCloT
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compareTN' (DCloT {}) _ ps _ = void $ ps IsDCloT
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private covering
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compareEN' : CanEqual' q _ m => Eq q =>
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(e, f : Elim q 0 n) ->
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(0 _ : NotRedexE e) -> (0 _ : NotRedexE f) -> m ()
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compareEN' e@(F x) f@(F y) _ _ =
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if x == y then pure () else
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case (!(defE x), !(defE y)) of
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(Nothing, Nothing) => clashE e f
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(s', t') => compareE0 (fromMaybe e s') (fromMaybe f t')
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compareEN' e@(F x) f _ _ = do
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Just e' <- defE x | Nothing => clashE e f
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compareE0 e' f
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compareEN' e f@(F y) _ _ = do
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Just f' <- defE y | Nothing => clashE e f
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compareE0 e f'
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compareEN' e@(B i) f@(B j) _ _ =
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unless (i == j) $ clashE e f
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compareEN' e@(B _) f _ _ = clashE e f
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-- [todo] tracking variance of functions? maybe???
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-- probably not
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compareEN' (fun1 :@ arg1) (fun2 :@ arg2) _ _ =
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local {mode := Equal} $ do
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compareE0 fun1 fun2
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compareT0 arg1 arg2
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compareEN' e@(_ :@ _) f _ _ = clashE e f
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-- [todo] is always checking the types are equal correct?
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compareEN' (tm1 :# ty1) (tm2 :# ty2) _ _ = do
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compareT0 tm1 tm2
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local {mode := Equal} $ compareT0 ty1 ty2
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compareEN' e@(_ :# _) f _ _ = clashE e f
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compareEN' (CloE {}) _ pe _ = void $ pe IsCloE
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compareEN' (DCloE {}) _ pe _ = void $ pe IsDCloE
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private covering %inline
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compareTN : CanEqual' q _ m => Eq q =>
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NonRedexTerm q 0 n -> NonRedexTerm q 0 n -> m ()
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compareTN s t = compareTN' s.fst t.fst s.snd t.snd
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private covering %inline
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compareEN : CanEqual' q _ m => Eq q =>
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NonRedexElim q 0 n -> NonRedexElim q 0 n -> m ()
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compareEN e f = compareEN' e.fst f.fst e.snd f.snd
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export covering %inline
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compareT : CanEqual' q _ m => Eq q =>
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DimEq d -> Term q d n -> Term q d n -> m ()
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compareT eqs s t =
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for_ (splits eqs) $ \th => compareT0 (s /// th) (t /// th)
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export covering %inline
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compareE : CanEqual' q _ m => Eq q =>
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DimEq d -> Elim q d n -> Elim q d n -> m ()
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compareE eqs e f =
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for_ (splits eqs) $ \th => compareE0 (e /// th) (f /// th)
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export covering %inline
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compareT0 : CanEqual' q _ m => Eq q => Term q 0 n -> Term q 0 n -> m ()
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compareT0 s t = compareTN (whnfT s) (whnfT t)
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export covering %inline
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compareE0 : CanEqual' q _ m => Eq q => Elim q 0 n -> Elim q 0 n -> m ()
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compareE0 e f = compareEN (whnfE e) (whnfE f)
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export covering %inline
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compareTS0 : CanEqual' q _ m => Eq q =>
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ScopeTerm q 0 n -> ScopeTerm q 0 n -> m ()
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compareTS0 (TUnused body1) (TUnused body2) =
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compareT0 body1 body2
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compareTS0 body1 body2 =
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compareT0 (fromScopeTerm body1) (fromScopeTerm body2)
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private %inline
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into : HasErr q m => HasDefs' q isg m => Eq q =>
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(forall n. HasErr q n => HasEnv' q isg n => d -> a -> a -> n ()) ->
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EqMode -> d -> a -> a -> m ()
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into f mode eqs a b =
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runReaderT {m} (MakeEnv {mode, defs = !ask}) $ f eqs a b
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export covering %inline
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equalTWith : HasErr q m => HasDefs' q _ m => Eq q =>
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DimEq d -> Term q d n -> Term q d n -> m ()
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equalTWith = into compareT Equal
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export covering %inline
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equalEWith : HasErr q m => HasDefs' q _ m => Eq q =>
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DimEq d -> Elim q d n -> Elim q d n -> m ()
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equalEWith = into compareE Equal
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export covering %inline
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subTWith : HasErr q m => HasDefs' q _ m => Eq q =>
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DimEq d -> Term q d n -> Term q d n -> m ()
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subTWith = into compareT Sub
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export covering %inline
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subEWith : HasErr q m => HasDefs' q _ m => Eq q =>
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DimEq d -> Elim q d n -> Elim q d n -> m ()
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subEWith = into compareE Sub
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export covering %inline
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equalT : HasErr q m => HasDefs' q _ m => Eq q =>
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{d : Nat} -> Term q d n -> Term q d n -> m ()
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equalT = equalTWith DimEq.new
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export covering %inline
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equalE : HasErr q m => HasDefs' q _ m => Eq q =>
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{d : Nat} -> Elim q d n -> Elim q d n -> m ()
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equalE = equalEWith DimEq.new
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export covering %inline
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subT : HasErr q m => HasDefs' q _ m => Eq q =>
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{d : Nat} -> Term q d n -> Term q d n -> m ()
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subT = subTWith DimEq.new
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export covering %inline
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subE : HasErr q m => HasDefs' q _ m => Eq q =>
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{d : Nat} -> Elim q d n -> Elim q d n -> m ()
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subE = subEWith DimEq.new
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