type-case

This commit is contained in:
rhiannon morris 2023-04-03 17:46:23 +02:00
parent 868550327c
commit a42e82c355
12 changed files with 334 additions and 93 deletions

View file

@ -48,34 +48,9 @@ parameters (ctx : EqContext n)
wrongType ty s = throw $ WrongType ctx ty s
||| true if a term is syntactically a type, or is neutral.
|||
||| this function *doesn't* push substitutions, because its main use is as a
||| `So` argument to skip cases that are already known to be nonsense. and
||| the substitutions have already been pushed.
public export %inline
isTyCon : (t : Term {}) -> Bool
isTyCon (TYPE {}) = True
isTyCon (Pi {}) = True
isTyCon (Lam {}) = False
isTyCon (Sig {}) = True
isTyCon (Pair {}) = False
isTyCon (Enum {}) = True
isTyCon (Tag {}) = False
isTyCon (Eq {}) = True
isTyCon (DLam {}) = False
isTyCon Nat = True
isTyCon Zero = False
isTyCon (Succ {}) = False
isTyCon (BOX {}) = True
isTyCon (Box {}) = False
isTyCon (E {}) = True
isTyCon (CloT {}) = False
isTyCon (DCloT {}) = False
public export %inline
sameTyCon : (s, t : Term d n) ->
(0 ts : So (isTyCon s)) => (0 tt : So (isTyCon t)) =>
(0 ts : So (isTyConE s)) => (0 tt : So (isTyConE t)) =>
Bool
sameTyCon (TYPE {}) (TYPE {}) = True
sameTyCon (TYPE {}) _ = False
@ -132,8 +107,8 @@ parameters (defs : Definitions)
export
ensureTyCon : Has ErrorEff fs =>
(ctx : EqContext n) -> (t : Term 0 n) ->
Eff fs (So (isTyCon t))
ensureTyCon ctx t = case nchoose $ isTyCon t of
Eff fs (So (isTyConE t))
ensureTyCon ctx t = case nchoose $ isTyConE t of
Left y => pure y
Right n => throw $ NotType (toTyContext ctx) (t // shift0 ctx.dimLen)
@ -164,7 +139,7 @@ parameters (defs : Definitions)
private covering
compare0' : EqContext n ->
(ty, s, t : Term 0 n) ->
(0 nty : NotRedex defs ty) => (0 tty : So (isTyCon ty)) =>
(0 nty : NotRedex defs ty) => (0 tty : So (isTyConE ty)) =>
(0 ns : NotRedex defs s) => (0 nt : NotRedex defs t) =>
Equal ()
compare0' ctx (TYPE _) s t = compareType ctx s t
@ -298,8 +273,8 @@ parameters (defs : Definitions)
private covering
compareType' : EqContext n -> (s, t : Term 0 n) ->
(0 ns : NotRedex defs s) => (0 ts : So (isTyCon s)) =>
(0 nt : NotRedex defs t) => (0 tt : So (isTyCon t)) =>
(0 ns : NotRedex defs s) => (0 ts : So (isTyConE s)) =>
(0 nt : NotRedex defs t) => (0 tt : So (isTyConE t)) =>
(0 st : So (sameTyCon s t)) =>
Equal ()
-- equality is the same as subtyping, except with the
@ -369,8 +344,9 @@ parameters (defs : Definitions)
(0 ne : NotRedex defs e) ->
Equal (Term 0 n)
computeElimType ctx (F x) _ = do
defs <- lookupFree' defs x
pure $ injectT ctx defs.type
def <- lookupFree x defs
let Val n = ctx.termLen
pure $ def.type
computeElimType ctx (B i) _ = pure $ ctx.tctx !! i
computeElimType ctx (f :@ s) ne = do
(_, arg, res) <- expectPiE defs ctx !(computeElimType ctx f (noOr1 ne))
@ -382,6 +358,7 @@ parameters (defs : Definitions)
computeElimType ctx (f :% p) ne = do
(ty, _, _) <- expectEqE defs ctx !(computeElimType ctx f (noOr1 ne))
pure $ dsub1 ty p
computeElimType ctx (TypeCase {ret, _}) _ = pure ret
computeElimType ctx (_ :# ty) _ = pure ty
private covering
@ -503,6 +480,41 @@ parameters (defs : Definitions)
bigger : forall a. a -> a -> Equal a
bigger l r = mode <&> \case Super => l; _ => r
compare0' ctx (TypeCase ty1 ret1 univ1 pi1 sig1 enum1 eq1 nat1 box1)
(TypeCase ty2 ret2 univ2 pi2 sig2 enum2 eq2 nat2 box2)
ne _ =
local_ Equal $ do
compare0 ctx ty1 ty2
u <- expectTYPEE defs ctx =<< computeElimType ctx ty1 (noOr1 ne)
compareType ctx ret1 ret2
compare0 ctx univ1 univ2 ret1
let [< piA, piB] = pi1.names
piCtx = extendTyN
[< (Zero, piA, TYPE u),
(Zero, piB, Arr Zero (BVT 0) (TYPE u))] ctx
ret1_2 = weakT ret1 {by = 2}
compare0 piCtx pi1.term pi2.term ret1_2
let [< sigA, sigB] = sig1.names
sigCtx = extendTyN
[< (Zero, sigA, TYPE u),
(Zero, sigB, Arr Zero (BVT 0) (TYPE u))] ctx
compare0 sigCtx sig1.term sig2.term ret1_2
compare0 ctx enum1 enum2 ret1
let [< eqA0, eqA1, eqA, eqL, eqR] = eq1.names
eqCtx = extendTyN
[< (Zero, eqA0, TYPE u),
(Zero, eqA1, TYPE u),
(Zero, eqA, Eq0 (TYPE u) (BVT 1) (BVT 0)),
(Zero, eqL, BVT 2),
(Zero, eqR, BVT 2)] ctx
ret1_5 = weakT ret1 {by = 5}
compare0 eqCtx eq1.term eq2.term ret1_5
compare0 ctx nat1 nat2 ret1
let boxCtx = extendTy Zero box1.name (TYPE u) ctx
ret1_1 = weakT ret1
compare0 boxCtx box1.term box2.term ret1_1
compare0' ctx e@(TypeCase {}) f _ _ = clashE ctx e f
compare0' ctx (s :# a) f _ _ = Term.compare0 ctx a s (E f)
compare0' ctx e (t :# b) _ _ = Term.compare0 ctx b (E e) t
compare0' ctx e@(_ :# _) f _ _ = clashE ctx e f

View file

@ -107,7 +107,13 @@ export
toPDim : Dim 0 -> PDim
toPDim = toPDimWith [<]
public export
fromNat : Nat -> PTerm
fromNat 0 = Zero
fromNat (S k) = Succ $ fromNat k
{-
mutual
namespace Term
export
@ -207,8 +213,4 @@ namespace Elim
export
toPTerm : Elim 0 0 -> PTerm
toPTerm = toPTermWith [<] [<]
public export
fromNat : Nat -> PTerm
fromNat 0 = Zero
fromNat (S k) = Succ $ fromNat k
-}

View file

@ -86,6 +86,38 @@ isAnn : Elim {} -> Bool
isAnn (_ :# _) = True
isAnn _ = False
||| true if a term is syntactically a type.
public export %inline
isTyCon : (t : Term {}) -> Bool
isTyCon (TYPE {}) = True
isTyCon (Pi {}) = True
isTyCon (Lam {}) = False
isTyCon (Sig {}) = True
isTyCon (Pair {}) = False
isTyCon (Enum {}) = True
isTyCon (Tag {}) = False
isTyCon (Eq {}) = True
isTyCon (DLam {}) = False
isTyCon Nat = True
isTyCon Zero = False
isTyCon (Succ {}) = False
isTyCon (BOX {}) = True
isTyCon (Box {}) = False
isTyCon (E {}) = False
isTyCon (CloT {}) = False
isTyCon (DCloT {}) = False
||| true if a term is syntactically a type, or a neutral.
public export %inline
isTyConE : (t : Term {}) -> Bool
isTyConE s = isTyCon s || isE s
||| true if a term is syntactically a type.
public export %inline
isAnnTyCon : (t : Elim {}) -> Bool
isAnnTyCon (ty :# TYPE _) = isTyCon ty
isAnnTyCon _ = False
mutual
public export
@ -107,6 +139,8 @@ mutual
isRedexE defs f || isDLamHead f
isRedexE defs (t :# a) =
isE t || isRedexT defs t || isRedexT defs a
isRedexE defs (TypeCase {ty, _}) =
isRedexE defs ty || isAnnTyCon ty
isRedexE _ (CloE {}) = True
isRedexE _ (DCloE {}) = True
@ -224,6 +258,68 @@ mutual
Element a anf <- whnf defs a
pure $ Element (s :# a) $ ne `orNo` snf `orNo` anf
-- (type-case ★ᵢ ∷ _ return Q of { ★ ⇒ s; ⋯ }) ⇝ s ∷ Q
--
-- (type-case π.(x : A) → B ∷ ★ᵢ return Q of { (a → b) ⇒ s; ⋯ }) ⇝
-- s[(A ∷ ★ᵢ)/a, ((λ x ⇒ B) ∷ 0.A → ★ᵢ)/b] ∷ ★ᵢ
--
-- (type-case (x : A) × B ∷ ★ᵢ return Q of { (a × b) ⇒ s; ⋯ }) ⇝
-- s[(A ∷ ★ᵢ)/a, ((λ x ⇒ B) ∷ 0.A → ★ᵢ)/b] ∷ ★ᵢ
--
-- (type-case {⋯} ∷ _ return Q of { {} ⇒ s; ⋯ }) ⇝ s ∷ Q
--
-- (type-case Eq [i ⇒ A] L R ∷ ★ᵢ return Q of {
-- Eq a₀ a₁ a l r ⇒ s; ⋯ }) ⇝
-- s[(A0/i ∷ ★ᵢ)/a₀, (A1/i ∷ ★ᵢ)/a₁,
-- ((δ i ⇒ A) ∷ Eq [★ᵢ] A0/i A1/i)/a,
-- (L ∷ A0/i)/l, (R ∷ A1/i)/r] ∷ Q
--
-- (type-case ∷ _ return Q of { ⇒ s; ⋯ }) ⇝ s ∷ Q
--
-- (type-case [π.A] ∷ ★ᵢ return Q of { [a] ⇒ s; ⋯ }) ⇝ s[(A ∷ ★ᵢ)/a] ∷ Q
whnf defs (TypeCase {ty, ret, univ, pi, sig, enum, eq, nat, box}) = do
Element ty tynf <- whnf defs ty
case nchoose $ isAnnTyCon ty of
Left y =>
let ty :# TYPE u = ty in
case ty of
TYPE _ =>
whnf defs $ univ :# ret
Pi _ arg res =>
let arg = arg :# TYPE u
res = toLam res :# Arr Zero (TYPE u) (TYPE u)
in
whnf defs $ subN pi [< arg, res] :# ret
Sig fst snd =>
let fst = fst :# TYPE u
snd = toLam snd :# Arr Zero (TYPE u) (TYPE u)
in
whnf defs $ subN sig [< fst, snd] :# ret
Enum _ =>
whnf defs $ enum :# ret
Eq a l r =>
let a0' = a.zero; a1' = a.one
a0 = a0' :# TYPE u
a1 = a1' :# TYPE u
a = toDLam a :# Eq0 (TYPE u) a0' a1'
l = l :# a0'
r = r :# a1'
in
whnf defs $ subN eq [< a0, a1, a, l, r] :# ret
Nat =>
whnf defs $ nat :# ret
BOX _ s =>
whnf defs $ sub1 box (s :# TYPE u) :# ret
Right nt => pure $
Element (TypeCase {ty, ret, univ, pi, sig, enum, eq, nat, box}) $
tynf `orNo` nt
where
toLam : {s : Nat} -> ScopeTermN s d n -> Term d n
toLam (S names body) = names :\\ body.term
toDLam : {s : Nat} -> DScopeTermN s d n -> Term d n
toDLam (S names body) = names :\\% body.term
whnf defs (CloE el th) = whnf defs $ pushSubstsWith' id th el
whnf defs (DCloE el th) = whnf defs $ pushSubstsWith' th id el

View file

@ -138,6 +138,18 @@ mutual
||| type-annotated term
(:#) : (tm, ty : Term d n) -> Elim d n
||| match on types (needed for coercions :mario_flop:)
TypeCase : (ty : Elim d n) ->
(ret : Term d n) ->
(univ : Term d n) ->
(pi : ScopeTermN 2 d n) ->
(sig : ScopeTermN 2 d n) ->
(enum : Term d n) ->
(eq : ScopeTermN 5 d n) ->
(nat : Term d n) ->
(box : ScopeTerm d n) ->
Elim d n
||| term closure/suspended substitution
CloE : (el : Elim d from) -> (th : Lazy (TSubst d from to)) ->
Elim d to

View file

@ -25,17 +25,19 @@ annD = hlF Syntax $ ifUnicode "∷" "::"
natD = hlF Syntax $ ifUnicode "" "Nat"
export %inline
eqD, colonD, commaD, semiD, caseD, returnD, ofD, dotD, zeroD, succD : Doc HL
eqD = hl Syntax "Eq"
colonD = hl Syntax ":"
commaD = hl Syntax ","
semiD = hl Syntax ";"
caseD = hl Syntax "case"
ofD = hl Syntax "of"
returnD = hl Syntax "return"
dotD = hl Delim "."
zeroD = hl Syntax "zero"
succD = hl Syntax "succ"
eqD, colonD, commaD, semiD, caseD, typecaseD, returnD,
ofD, dotD, zeroD, succD : Doc HL
eqD = hl Syntax "Eq"
colonD = hl Syntax ":"
commaD = hl Syntax ","
semiD = hl Syntax ";"
caseD = hl Syntax "case"
typecaseD = hl Syntax "type-case"
ofD = hl Syntax "of"
returnD = hl Syntax "return"
dotD = hl Delim "."
zeroD = hl Syntax "zero"
succD = hl Syntax "succ"
export
@ -141,6 +143,19 @@ prettyArms =
map (braces . aseparate semiD) .
traverse (\(xs, l, r) => prettyArm T xs l r)
export
prettyCase' : (PrettyHL a, PrettyHL b, PrettyHL c, Pretty.HasEnv m) =>
Doc HL -> a -> BaseName -> b ->
List (SnocList BaseName, Doc HL, c) ->
m (Doc HL)
prettyCase' intro elim r ret arms = do
elim <- pretty0M elim
ret <- case r of
Unused => pretty0M ret
_ => prettyLams Nothing T [< r] ret
arms <- prettyArms arms
pure $ asep [intro <++> elim, returnD <++> ret, ofD <++> arms]
export
prettyCase : (PrettyHL a, PrettyHL b, PrettyHL c, Pretty.HasEnv m) =>
Qty -> a -> BaseName -> b ->
@ -148,10 +163,7 @@ prettyCase : (PrettyHL a, PrettyHL b, PrettyHL c, Pretty.HasEnv m) =>
m (Doc HL)
prettyCase pi elim r ret arms = do
caseq <- (caseD <+>) <$> prettySuffix pi
elim <- pretty0M elim
ret <- prettyLams Nothing T [< r] ret
arms <- prettyArms arms
pure $ asep [caseq <++> elim, returnD <++> ret, ofD <++> arms]
prettyCase' caseq elim r ret arms
export
escapeString : String -> String
@ -293,6 +305,24 @@ parameters (showSubsts : Bool)
s <- withPrec AnnL $ prettyM s
a <- withPrec AnnR $ prettyM a
parensIfM AnnR $ hang 2 $ s <++> !annD <%%> a
prettyM (TypeCase ty ret univ
(S [< piA, piB] pi) (S [< sigA, sigB] sig) enum
(S [< eqA0, eqA1, eqA, eqL, eqR] eq)
nat (S [< boxA] box)) = do
let v : BaseName -> Doc HL := pretty0 True . TV
pipat <- pure $ parens $ hsep [v piA, !arrowD, v piB]
sigpat <- pure $ parens $ hsep [v sigA, !timesD, v sigB]
eqpat <- prettyApps Nothing (L eqD)
[TV eqA0, TV eqA1, TV eqA, TV eqL, TV eqR]
boxpat <- pure $ bracks $ v boxA
prettyCase' typecaseD ty Unused ret
[([<], !typeD, eterm univ),
([< piA, piB], pipat, eterm pi.term),
([< sigA, sigB], sigpat, eterm sig.term),
([<], hl Syntax "{}", eterm enum),
([< eqA0, eqA1, eqA, eqL, eqR], eqpat, eterm eq.term),
([<], !natD, eterm nat),
([< boxA], boxpat, eterm box.term)]
prettyM (CloE e th) =
if showSubsts then
parensIfM SApp . hang 2 =<<

View file

@ -305,6 +305,12 @@ mutual
nclo $ (f // th // ph) :% (d // th)
pushSubstsWith th ph (s :# a) =
nclo $ (s // th // ph) :# (a // th // ph)
pushSubstsWith th ph (TypeCase ty ret univ pi sig enum eq nat box) =
nclo $ TypeCase (ty // th // ph) (ret // th // ph)
(univ // th // ph) (pi // th // ph)
(sig // th // ph) (enum // th // ph)
(eq // th // ph) (nat // th // ph)
(box // th // ph)
pushSubstsWith th ph (CloE e ps) =
pushSubstsWith th (comp th ps ph) e
pushSubstsWith th ph (DCloE e ps) =

View file

@ -46,6 +46,17 @@ lubs ctx [] = Just $ zeroFor ctx
lubs ctx (x :: xs) = lubs1 $ x ::: xs
||| context extension with no names or quantities
private
CtxExtension0' : Nat -> Nat -> Nat -> Type
CtxExtension0' s d n = Context (Term d . (+ n)) s
private
addNames0 : Context (Term d . (+ n)) s -> NContext s -> CtxExtension d n (s + n)
addNames0 [<] [<] = [<]
addNames0 (ts :< t) (xs :< x) = addNames0 ts xs :< (Zero, x, t)
mutual
||| "Ψ | Γ ⊢ σ · s ⇐ A ⊳ Σ"
|||
@ -222,9 +233,7 @@ mutual
-- if Ψ | Γ ⊢₀ A ⇐ Type
checkTypeC ctx arg u
-- if Ψ | Γ, x : A ⊢₀ B ⇐ Type
case res.body of
Y res' => checkTypeC (extendTy Zero res.name arg ctx) res' u
N res' => checkTypeC ctx res' u
checkTypeScope ctx arg res u
-- then Ψ | Γ ⊢₀ (π·x : A) → B ⇐ Type
checkType' ctx t@(Lam {}) u =
@ -234,9 +243,7 @@ mutual
-- if Ψ | Γ ⊢₀ A ⇐ Type
checkTypeC ctx fst u
-- if Ψ | Γ, x : A ⊢₀ B ⇐ Type
case snd.body of
Y snd' => checkTypeC (extendTy Zero snd.name fst ctx) snd' u
N snd' => checkTypeC ctx snd' u
checkTypeScope ctx fst snd u
-- then Ψ | Γ ⊢₀ (x : A) × B ⇐ Type
checkType' ctx t@(Pair {}) u =
@ -278,6 +285,32 @@ mutual
Nothing => ignore $ expectTYPE !ask ctx infres.type
-- then Ψ | Γ ⊢₀ E ⇐ Type 𝓀
private covering
check0ScopeN : {s : Nat} ->
TyContext d n -> CtxExtension0' s d n ->
ScopeTermN s d n -> Term d n -> TC ()
check0ScopeN ctx ext (S _ (N body)) ty = check0 ctx body ty
check0ScopeN ctx ext (S names (Y body)) ty =
check0 (extendTyN (addNames0 ext names) ctx) body (weakT {by = s} ty)
private covering
check0Scope : TyContext d n -> Term d n ->
ScopeTerm d n -> Term d n -> TC ()
check0Scope ctx t = check0ScopeN ctx [< t]
private covering
checkTypeScopeN : TyContext d n -> CtxExtension0' s d n ->
ScopeTermN s d n -> Maybe Universe -> TC ()
checkTypeScopeN ctx ext (S _ (N body)) u = checkType ctx body u
checkTypeScopeN ctx ext (S names (Y body)) u =
checkType (extendTyN (addNames0 ext names) ctx) body u
private covering
checkTypeScope : TyContext d n -> Term d n ->
ScopeTerm d n -> Maybe Universe -> TC ()
checkTypeScope ctx s = checkTypeScopeN ctx [< s]
private covering
infer' : TyContext d n -> SQty ->
@ -286,14 +319,12 @@ mutual
infer' ctx sg (F x) = do
-- if π·x : A {≔ s} in global context
g <- lookupFree x
g <- lookupFree x !ask
-- if σ ≤ π
expectCompatQ sg.fst g.qty.fst
-- then Ψ | Γ ⊢ σ · x ⇒ A ⊳ 𝟎
pure $ InfRes {type = injectT ctx g.type, qout = zeroFor ctx}
where
lookupFree : Name -> TC Definition
lookupFree x = lookupFree' !ask x
let Val d = ctx.dimLen; Val n = ctx.termLen
pure $ InfRes {type = g.type, qout = zeroFor ctx}
infer' ctx sg (B i) =
-- if x : A ∈ Γ
@ -417,6 +448,26 @@ mutual
-- then Ψ | Γ ⊢ σ · f p ⇒ Ap/𝑖 ⊳ Σ
pure $ InfRes {type = dsub1 ty dim, qout}
infer' ctx sg (TypeCase ty ret univ pi sig enum eq nat box) = do
-- if σ = 0
expectEqualQ Zero sg.fst
-- if Ψ, Γ ⊢₀ e ⇒ Type u
u <- expectTYPE !ask ctx . type =<< inferC ctx szero ty
-- if Ψ, Γ ⊢₀ C ⇐ Type
-- (non-dependent return type)
checkTypeC ctx ret Nothing
-- if all the cases have type C
check0 ctx univ ret
check0ScopeN ctx [< TYPE u, Arr Zero (BVT 0) (TYPE u)] pi ret
check0ScopeN ctx [< TYPE u, Arr Zero (BVT 0) (TYPE u)] sig ret
check0 ctx enum ret
check0ScopeN ctx [< TYPE u, TYPE u, Eq0 (TYPE u) (BVT 1) (BVT 0),
BVT 2, BVT 2] eq ret
check0 ctx nat ret
check0Scope ctx (TYPE u) box ret
-- then Ψ, Γ ⊢₀ type-case ⋯ ⇒ C
pure $ InfRes {type = ret, qout = zeroFor ctx}
infer' ctx sg (term :# type) = do
-- if Ψ | Γ ⊢₀ A ⇐ Type
checkTypeC ctx type Nothing

View file

@ -33,11 +33,8 @@ InferResult eqs d n = IfConsistent eqs $ InferResult' d n
export
lookupFree' : Has ErrorEff fs => Definitions -> Name -> Eff fs Definition
lookupFree' defs x =
case lookup x defs of
Just d => pure d
Nothing => throw $ NotInScope x
lookupFree : Has ErrorEff fs => Name -> Definitions -> Eff fs Definition
lookupFree x defs = maybe (throw $ NotInScope x) pure $ lookup x defs
public export

View file

@ -65,6 +65,11 @@ extendLen : Telescope a from to -> Singleton from -> Singleton to
extendLen [<] x = x
extendLen (tel :< _) x = [|S $ extendLen tel x|]
public export
CtxExtension : Nat -> Nat -> Nat -> Type
CtxExtension d = Telescope ((Qty, BaseName,) . Term d)
namespace TyContext
public export %inline
empty : TyContext 0 0
@ -76,8 +81,7 @@ namespace TyContext
null ctx = null ctx.dnames && null ctx.tnames
export %inline
extendTyN : Telescope (\n => (Qty, BaseName, Term d n)) from to ->
TyContext d from -> TyContext d to
extendTyN : CtxExtension d from to -> TyContext d from -> TyContext d to
extendTyN xss (MkTyContext {termLen, dctx, dnames, tctx, tnames, qtys}) =
let (qs, xs, ss) = unzip3 xss in
MkTyContext {
@ -89,8 +93,7 @@ namespace TyContext
}
export %inline
extendTy : Qty -> BaseName -> Term d n -> TyContext d n ->
TyContext d (S n)
extendTy : Qty -> BaseName -> Term d n -> TyContext d n -> TyContext d (S n)
extendTy q x s = extendTyN [< (q, x, s)]
export %inline
@ -108,16 +111,6 @@ namespace TyContext
eqDim : Dim d -> Dim d -> TyContext d n -> TyContext d n
eqDim p q = {dctx $= set p q, dimLen $= id, termLen $= id}
export
injectT : TyContext d n -> Term 0 0 -> Term d n
injectT (MkTyContext {dimLen = Val d, termLen = Val n, _}) tm =
tm // shift0 d // shift0 n
export
injectE : TyContext d n -> Elim 0 0 -> Elim d n
injectE (MkTyContext {dimLen = Val d, termLen = Val n, _}) el =
el // shift0 d // shift0 n
namespace QOutput
export %inline
@ -197,14 +190,6 @@ namespace EqContext
dnames, tnames, qtys
}
export
injectT : EqContext n -> Term 0 0 -> Term 0 n
injectT (MkEqContext {termLen = Val n, _}) tm = tm // shift0 n
export
injectE : EqContext n -> Elim 0 0 -> Elim 0 n
injectE (MkEqContext {termLen = Val n, _}) el = el // shift0 n
private
data CtxBinder a = MkCtxBinder BaseName a

View file

@ -115,6 +115,19 @@ mutual
(tm1 :# ty1) == (tm2 :# ty2) = tm1 == tm2 && ty1 == ty2
(_ :# _) == _ = False
TypeCase ty1 ret1 univ1 pi1 sig1 enum1 eq1 nat1 box1
==
TypeCase ty2 ret2 univ2 pi2 sig2 enum2 eq2 nat2 box2 =
ty1 == ty2 && ret1 == ret2 &&
pi1.term == pi2.term &&
sig1.term == sig2.term &&
enum1 == enum2 &&
eq1.term == eq2.term &&
nat1 == nat2 &&
box1.term == box2.term
TypeCase {} == _ = False
CloE el1 th1 == CloE el2 th2 =
case eqSubstLen th1 th2 of
Just Refl => el1 == el2 && th1 == th2

View file

@ -138,8 +138,8 @@ tests = "pretty printing terms" :- [
"case" :- [
testPrettyE [<] [<]
(CasePair One (F "a") (SN $ TYPE 1) (SN $ TYPE 0))
"case1 a return _ ⇒ ★₁ of { (_, _) ⇒ ★₀ }"
"case1 a return _ => Type1 of { (_, _) => Type0 }",
"case1 a return ★₁ of { (_, _) ⇒ ★₀ }"
"case1 a return Type1 of { (_, _) => Type0 }",
testPrettyT [<] [<]
([< "u"] :\\
E (CaseEnum One (F "u")
@ -152,6 +152,35 @@ tests = "pretty printing terms" :- [
"""
],
"type-case" :- [
testPrettyE [<] [<]
{label = "type-case ∷ ★₀ return ★₀ of { ⋯ }"}
(TypeCase (Nat :# TYPE 0) (TYPE 0) Nat (SN Nat) (SN Nat) Nat
(SN Nat) Nat (SN Nat))
"""
type-case ∷ ★₀ return ★₀ of {
★ ⇒ ;
(__);
(_ × _);
{};
Eq _ _ _ _ _;
;
[_]
}
"""
"""
type-case Nat :: Type0 return Type0 of {
Type => Nat;
(_ -> _) => Nat;
(_ ** _) => Nat;
{} => Nat;
Eq _ _ _ _ _ => Nat;
Nat => Nat;
[_] => Nat
}
"""
],
"annotations" :- [
testPrettyE [<] [<] (FT "a" :# FT "A") "a ∷ A" "a :: A",
testPrettyE [<] [<]

View file

@ -448,6 +448,14 @@ tests = "typechecker" :- [
todo "box values",
todo "box elim",
"type-case" :- [
testTC "0 · type-case ∷ ★₀ return ★₀ of { _ ⇒ } ⇒ ★₀" $
inferAs empty szero
(TypeCase (Nat :# TYPE 0) (TYPE 0) Nat (SN Nat) (SN Nat) Nat
(SN Nat) Nat (SN Nat))
(TYPE 0)
],
"misc" :- [
note "0·A : Type, 0·P : A → Type, ω·p : (1·x : A) → P x",
note "",