improve equality somewhat

This commit is contained in:
rhiannon morris 2022-04-06 20:31:38 +02:00
parent 981f543509
commit 2c1ca7e19b

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@ -7,8 +7,8 @@ import Quox.Error
public export public export
data Error = data Error
Clash SomeTerm SomeTerm = Clash SomeTerm SomeTerm
| ClashU Universe Universe | ClashU Universe Universe
| ClashQ Qty Qty | ClashQ Qty Qty
@ -35,92 +35,81 @@ parameters {auto _ : MonadThrow Error m}
mutual mutual
private covering private covering
equalTN' : DSubst d 0 -> (s, t : Term d n) -> equalTN' : (s, t : Term 0 n) ->
(0 _ : NotRedexT s) -> (0 _ : NotRedexT t) -> m () (0 _ : NotRedexT s) -> (0 _ : NotRedexT t) -> m ()
equalTN' _ (TYPE k) (TYPE l) _ _ = equalTN' (TYPE k) (TYPE l) _ _ =
eq ClashU k l eq ClashU k l
equalTN' _ s@(TYPE _) t _ _ = clashT s t equalTN' s@(TYPE _) t _ _ = clashT s t
equalTN' th (Pi qtm1 qty1 _ arg1 res1) (Pi qtm2 qty2 _ arg2 res2) _ _ = do equalTN' (Pi qtm1 qty1 _ arg1 res1) (Pi qtm2 qty2 _ arg2 res2) _ _ = do
eq ClashQ qtm1 qtm2 eq ClashQ qtm1 qtm2
eq ClashQ qty1 qty2 eq ClashQ qty1 qty2
equalTS th arg1 arg2 equalT0 arg1 arg2
equalTS th res1 res2 equalT0 res1 res2
equalTN' _ s@(Pi {}) t _ _ = clashT s t equalTN' s@(Pi {}) t _ _ = clashT s t
-- [todo] eta -- [todo] eta
equalTN' th (Lam _ body1) (Lam _ body2) _ _ = equalTN' (Lam _ body1) (Lam _ body2) _ _ =
equalTS th body1 body2 equalT0 body1 body2
equalTN' _ s@(Lam {}) t _ _ = clashT s t equalTN' s@(Lam {}) t _ _ = clashT s t
equalTN' th (E e) (E f) ps pt = equalES th e f equalTN' (E e) (E f) ps pt = equalE0 e f
equalTN' _ s@(E _) t _ _ = clashT s t equalTN' s@(E _) t _ _ = clashT s t
equalTN' _ (CloT {}) _ ps _ = void $ ps IsCloT equalTN' (CloT {}) _ ps _ = void $ ps IsCloT
equalTN' _ (DCloT {}) _ ps _ = void $ ps IsDCloT equalTN' (DCloT {}) _ ps _ = void $ ps IsDCloT
private covering private covering
equalEN' : DSubst d 0 -> (e, f : Elim d n) -> equalEN' : (e, f : Elim 0 n) ->
(0 _ : NotRedexE e) -> (0 _ : NotRedexE f) -> m () (0 _ : NotRedexE e) -> (0 _ : NotRedexE f) -> m ()
equalEN' _ (F x) (F y) _ _ = do equalEN' (F x) (F y) _ _ = do
eq (clashE' `on` F {d = 0, n = 0}) x y eq (clashE' `on` F {d = 0, n = 0}) x y
equalEN' _ e@(F _) f _ _ = clashE e f equalEN' e@(F _) f _ _ = clashE e f
equalEN' _ (B i) (B j) _ _ = do equalEN' (B i) (B j) _ _ = do
eq (clashE' `on` B {d = 0}) i j eq (clashE' `on` B {d = 0}) i j
equalEN' _ e@(B _) f _ _ = clashE e f equalEN' e@(B _) f _ _ = clashE e f
equalEN' th (fun1 :@ arg1) (fun2 :@ arg2) _ _ = do equalEN' (fun1 :@ arg1) (fun2 :@ arg2) _ _ = do
equalES th fun1 fun2 equalE0 fun1 fun2
equalTS th arg1 arg2 equalT0 arg1 arg2
equalEN' _ e@(_ :@ _) f _ _ = clashE e f equalEN' e@(_ :@ _) f _ _ = clashE e f
equalEN' th (tm1 :# ty1) (tm2 :# ty2) _ _ = do equalEN' (tm1 :# ty1) (tm2 :# ty2) _ _ = do
equalTS th tm1 tm2 equalT0 tm1 tm2
equalTS th ty1 ty2 equalT0 ty1 ty2
equalEN' _ e@(_ :# _) f _ _ = clashE e f equalEN' e@(_ :# _) f _ _ = clashE e f
equalEN' _ (CloE {}) _ pe _ = void $ pe IsCloE equalEN' (CloE {}) _ pe _ = void $ pe IsCloE
equalEN' _ (DCloE {}) _ pe _ = void $ pe IsDCloE equalEN' (DCloE {}) _ pe _ = void $ pe IsDCloE
private covering %inline private covering %inline
equalTN : DSubst d 0 -> NonRedexTerm d n -> NonRedexTerm d n -> m () equalTN : NonRedexTerm 0 n -> NonRedexTerm 0 n -> m ()
equalTN th s t = equalTN' th s.fst t.fst s.snd t.snd equalTN s t = equalTN' s.fst t.fst s.snd t.snd
private covering %inline private covering %inline
equalEN : DSubst d 0 -> NonRedexElim d n -> NonRedexElim d n -> m () equalEN : NonRedexElim 0 n -> NonRedexElim 0 n -> m ()
equalEN th e f = equalEN' th e.fst f.fst e.snd f.snd equalEN e f = equalEN' e.fst f.fst e.snd f.snd
export covering %inline export covering %inline
equalTS : DSubst d 0 -> Term d n -> Term d n -> m () equalT : DimEq d -> Term d n -> Term d n -> m ()
equalTS th s t = equalTN th (whnfT s) (whnfT t) equalT eqs s t =
for_ (splits eqs) $ \th => (s /// th) `equalT0` (t /// th)
export covering %inline export covering %inline
equalES : DSubst d 0 -> Elim d n -> Elim d n -> m () equalE : DimEq d -> Elim d n -> Elim d n -> m ()
equalES th e f = equalEN th (whnfE e) (whnfE f) equalE eqs e f =
for_ (splits eqs) $ \th => (e /// th) `equalE0` (f /// th)
export covering %inline export covering %inline
equalT : DimEq d -> Term d n -> Term d n -> m () equalT0 : Term 0 n -> Term 0 n -> m ()
equalT eqs s t = equalT0 s t = whnfT s `equalTN` whnfT t
let s' = whnfT s; t' = whnfT t in
for_ (splits eqs) $ \th => equalTN th s' t'
export covering %inline export covering %inline
equalE : DimEq d -> Elim d n -> Elim d n -> m () equalE0 : Elim 0 n -> Elim 0 n -> m ()
equalE eqs e f = equalE0 e f = whnfE e `equalEN` whnfE f
let e' = whnfE e; f' = whnfE f in
for_ (splits eqs) $ \th => equalEN th e' f'
export covering %inline
equalT0 : Term 0 n -> Term 0 n -> m ()
equalT0 = equalT zeroEq
export covering %inline
equalE0 : Elim 0 n -> Elim 0 n -> m ()
equalE0 = equalE zeroEq