style tweaks

This commit is contained in:
rhiannon morris 2023-01-08 15:44:20 +01:00
parent 0c1b3a78c3
commit 28eb99c091
3 changed files with 40 additions and 42 deletions

View file

@ -14,21 +14,19 @@ public export
record Definition where
constructor MkDef'
qty : Qty
0 qtyGlobal : IsGlobal qty
type : AnyTerm
term : Maybe AnyTerm
{auto 0 qtyGlobal : IsGlobal qty}
public export %inline
MkDef : (qty : Qty) -> (0 qtyGlobal : IsGlobal qty) =>
mkDef : (qty : Qty) -> (0 _ : IsGlobal qty) =>
(type, term : forall d, n. Term d n) -> Definition
MkDef {qty, type, term} =
MkDef' {qty, qtyGlobal = %search, type = T type, term = Just (T term)}
mkDef qty type term = MkDef' {qty, type = T type, term = Just (T term)}
public export %inline
MkAbstract : (qty : Qty) -> (0 qtyGlobal : IsGlobal qty) =>
mkAbstract : (qty : Qty) -> (0 _ : IsGlobal qty) =>
(type : forall d, n. Term d n) -> Definition
MkAbstract {qty, type} =
MkDef' {qty, qtyGlobal = %search, type = T type, term = Nothing}
mkAbstract qty type = MkDef' {qty, type = T type, term = Nothing}
public export %inline

View file

@ -202,11 +202,11 @@ mutual
isRedexT (E e@(_ :@ _)) with (isRedexE e)
_ | Yes yes = Yes $ IsERedex yes
_ | No no = No \case IsERedex p => no p
isRedexT (TYPE {}) = No $ \x => case x of {}
isRedexT (Pi {}) = No $ \x => case x of {}
isRedexT (Lam {}) = No $ \x => case x of {}
isRedexT (E (F _)) = No $ \x => case x of IsERedex _ impossible
isRedexT (E (B _)) = No $ \x => case x of IsERedex _ impossible
isRedexT (TYPE {}) = No $ \case _ impossible
isRedexT (Pi {}) = No $ \case _ impossible
isRedexT (Lam {}) = No $ \case _ impossible
isRedexT (E (F _)) = No $ \case IsERedex _ impossible
isRedexT (E (B _)) = No $ \case IsERedex _ impossible
export %inline
isRedexE : (e : Elim d n) -> Dec (IsRedexE e)
@ -214,28 +214,28 @@ mutual
isRedexE ((Lam {} :# Pi {}) :@ _) = Yes IsBetaLam
isRedexE (CloE {}) = Yes IsCloE
isRedexE (DCloE {}) = Yes IsDCloE
isRedexE (F x) = No $ \x => case x of {}
isRedexE (B i) = No $ \x => case x of {}
isRedexE (F _ :@ _) = No $ \x => case x of {}
isRedexE (B _ :@ _) = No $ \x => case x of {}
isRedexE (_ :@ _ :@ _) = No $ \x => case x of {}
isRedexE ((TYPE _ :# _) :@ _) = No $ \x => case x of {}
isRedexE ((Pi {} :# _) :@ _) = No $ \x => case x of {}
isRedexE ((Lam {} :# TYPE _) :@ _) = No $ \x => case x of {}
isRedexE ((Lam {} :# Lam {}) :@ _) = No $ \x => case x of {}
isRedexE ((Lam {} :# E _) :@ _) = No $ \x => case x of {}
isRedexE ((Lam {} :# CloT {}) :@ _) = No $ \x => case x of {}
isRedexE ((Lam {} :# DCloT {}) :@ _) = No $ \x => case x of {}
isRedexE ((E _ :# _) :@ _) = No $ \x => case x of {}
isRedexE ((CloT {} :# _) :@ _) = No $ \x => case x of {}
isRedexE ((DCloT {} :# _) :@ _) = No $ \x => case x of {}
isRedexE (CloE {} :@ _) = No $ \x => case x of {}
isRedexE (DCloE {} :@ _) = No $ \x => case x of {}
isRedexE (TYPE _ :# _) = No $ \x => case x of {}
isRedexE (Pi {} :# _) = No $ \x => case x of {}
isRedexE (Lam {} :# _) = No $ \x => case x of {}
isRedexE (CloT {} :# _) = No $ \x => case x of {}
isRedexE (DCloT {} :# _) = No $ \x => case x of {}
isRedexE (F x) = No $ \case _ impossible
isRedexE (B i) = No $ \case _ impossible
isRedexE (F _ :@ _) = No $ \case _ impossible
isRedexE (B _ :@ _) = No $ \case _ impossible
isRedexE (_ :@ _ :@ _) = No $ \case _ impossible
isRedexE ((TYPE _ :# _) :@ _) = No $ \case _ impossible
isRedexE ((Pi {} :# _) :@ _) = No $ \case _ impossible
isRedexE ((Lam {} :# TYPE _) :@ _) = No $ \case _ impossible
isRedexE ((Lam {} :# Lam {}) :@ _) = No $ \case _ impossible
isRedexE ((Lam {} :# E _) :@ _) = No $ \case _ impossible
isRedexE ((Lam {} :# CloT {}) :@ _) = No $ \case _ impossible
isRedexE ((Lam {} :# DCloT {}) :@ _) = No $ \case _ impossible
isRedexE ((E _ :# _) :@ _) = No $ \case _ impossible
isRedexE ((CloT {} :# _) :@ _) = No $ \case _ impossible
isRedexE ((DCloT {} :# _) :@ _) = No $ \case _ impossible
isRedexE (CloE {} :@ _) = No $ \case _ impossible
isRedexE (DCloE {} :@ _) = No $ \case _ impossible
isRedexE (TYPE _ :# _) = No $ \case _ impossible
isRedexE (Pi {} :# _) = No $ \case _ impossible
isRedexE (Lam {} :# _) = No $ \case _ impossible
isRedexE (CloT {} :# _) = No $ \case _ impossible
isRedexE (DCloT {} :# _) = No $ \case _ impossible
public export %inline

View file

@ -161,11 +161,11 @@ tests = "equality & subtyping" :- [
"free var" :-
let au_bu = fromList
[("A", MkDef Any (TYPE (U 1)) (TYPE (U 0))),
("B", MkDef Any (TYPE (U 1)) (TYPE (U 0)))]
[("A", mkDef Any (TYPE (U 1)) (TYPE (U 0))),
("B", mkDef Any (TYPE (U 1)) (TYPE (U 0)))]
au_ba = fromList
[("A", MkDef Any (TYPE (U 1)) (TYPE (U 0))),
("B", MkDef Any (TYPE (U 1)) (FT "A"))]
[("A", mkDef Any (TYPE (U 1)) (TYPE (U 0))),
("B", mkDef Any (TYPE (U 1)) (FT "A"))]
in [
testEq "A ≡ A" $
equalE (F "A") (F "A"),