quox/lib/Quox/Equal.idr

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module Quox.Equal
import public Quox.Syntax
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import public Quox.Definition
import public Quox.Typing
import public Control.Monad.Either
import public Control.Monad.Reader
import Data.Maybe
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private %inline
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ClashE : EqMode -> Term q d n -> Elim q d n -> Elim q d n -> Error q
ClashE mode ty = ClashT mode ty `on` E
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public export
record Env where
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constructor MakeEnv
mode : EqMode
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public export
0 HasEnv : (Type -> Type) -> Type
HasEnv = MonadReader Env
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public export
0 CanEqual : (q : Type) -> (Type -> Type) -> Type
CanEqual q m = (HasErr q m, HasEnv m)
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private %inline
mode : HasEnv m => m EqMode
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mode = asks mode
private %inline
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clashT : CanEqual q m => Term q d n -> Term q d n -> Term q d n -> m a
clashT ty s t = throwError $ ClashT !mode ty s t
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private %inline
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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public export %inline
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isTyCon : (t : Term {}) -> Bool
isTyCon (TYPE {}) = True
isTyCon (Pi {}) = True
isTyCon (Lam {}) = False
isTyCon (Sig {}) = True
isTyCon (Pair {}) = False
isTyCon (Eq {}) = True
isTyCon (DLam {}) = False
isTyCon (E {}) = True
isTyCon (CloT {}) = False
isTyCon (DCloT {}) = False
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public export %inline
sameTyCon : (s, t : Term q d n) ->
(0 ts : So (isTyCon s)) => (0 tt : So (isTyCon t)) =>
Bool
sameTyCon (TYPE {}) (TYPE {}) = True
sameTyCon (TYPE {}) _ = False
sameTyCon (Pi {}) (Pi {}) = True
sameTyCon (Pi {}) _ = False
sameTyCon (Sig {}) (Sig {}) = True
sameTyCon (Sig {}) _ = False
sameTyCon (Eq {}) (Eq {}) = True
sameTyCon (Eq {}) _ = False
sameTyCon (E {}) (E {}) = True
sameTyCon (E {}) _ = False
parameters (defs : Definitions' q g)
private
isSubSing : Term q 0 n -> Bool
isSubSing ty =
let Element ty nc = whnfD defs ty in
case ty of
TYPE _ => False
Pi {res, _} => isSubSing res.term
Lam {} => False
Sig {fst, snd, _} => isSubSing fst && isSubSing snd.term
Pair {} => False
Eq {} => True
DLam {} => False
E (s :# _) => isSubSing s
E _ => False
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parameters {auto _ : HasErr q m}
export %inline
ensure : (a -> Error q) -> (p : a -> Bool) -> (t : a) -> m (So (p t))
ensure e p t = case nchoose $ p t of
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Left y => pure y
Right _ => throwError $ e t
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export %inline
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ensureTyCon : HasErr q m => (t : Term q d n) -> m (So (isTyCon t))
ensureTyCon = ensure NotType isTyCon
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parameters (defs : Definitions' q _) {auto _ : (CanEqual q m, Eq q)}
mutual
namespace Term
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export covering %inline
compare0 : TContext q 0 n -> (ty, s, t : Term q 0 n) -> m ()
compare0 ctx ty s t = do
let Element ty nty = whnfD defs ty
Element s ns = whnfD defs s
Element t nt = whnfD defs t
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tty <- ensureTyCon ty
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compare0' ctx ty s t
private %inline
toLamBody : Elim q d n -> Term q d (S n)
toLamBody e = E $ weakE e :@ BVT 0
private covering
compare0' : TContext q 0 n ->
(ty, s, t : Term q 0 n) ->
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(0 nty : NotRedex defs ty) => (0 tty : So (isTyCon ty)) =>
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(0 ns : NotRedex defs s) => (0 nt : NotRedex defs t) =>
m ()
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compare0' ctx (TYPE _) s t = compareType ctx s t
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compare0' ctx ty@(Pi {arg, res, _}) s t {n} = local {mode := Equal} $
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let ctx' = ctx :< arg
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eta : Elim q 0 n -> ScopeTerm q 0 n -> m ()
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eta e (TUsed b) = compare0 ctx' res.term (toLamBody e) b
eta e (TUnused _) = clashT ty s t
in
case (s, t) of
(Lam _ b1, Lam _ b2) => compare0 ctx' res.term b1.term b2.term
(E e, Lam _ b) => eta e b
(Lam _ b, E e) => eta e b
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(E e, E f) => Elim.compare0 ctx e f
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_ => throwError $ WrongType ty s t
compare0' ctx ty@(Sig {fst, snd, _}) s t = local {mode := Equal} $
-- no η (no fst/snd for π ≱ 0), so…
-- [todo] η for π ≥ 0 maybe
case (s, t) of
(Pair sFst sSnd, Pair tFst tSnd) => do
compare0 ctx fst sFst tFst
compare0 ctx (sub1 snd (sFst :# fst)) sSnd tSnd
_ => throwError $ WrongType ty s t
-- ✨ uip ✨
compare0' _ (Eq {}) _ _ = pure ()
compare0' ctx ty@(E _) s t = do
-- a neutral type can only be inhabited by neutral values
-- e.g. an abstract value in an abstract type, bound variables, …
E e <- pure s | _ => throwError $ WrongType ty s t
E f <- pure t | _ => throwError $ WrongType ty s t
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Elim.compare0 ctx e f
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export covering
compareType : TContext q 0 n -> (s, t : Term q 0 n) -> m ()
compareType ctx s t = do
let Element s ns = whnfD defs s
Element t nt = whnfD defs t
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ts <- ensureTyCon s
tt <- ensureTyCon t
st <- either pure (const $ clashT (TYPE UAny) s t) $
nchoose $ sameTyCon s t
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compareType' ctx s t
private covering
compareType' : TContext q 0 n -> (s, t : Term q 0 n) ->
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(0 ns : NotRedex defs s) => (0 ts : So (isTyCon s)) =>
(0 nt : NotRedex defs t) => (0 tt : So (isTyCon t)) =>
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(0 st : So (sameTyCon s t)) =>
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m ()
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compareType' ctx (TYPE k) (TYPE l) =
expectModeU !mode k l
compareType' ctx (Pi {qty = sQty, arg = sArg, res = sRes, _})
(Pi {qty = tQty, arg = tArg, res = tRes, _}) = do
expectEqualQ sQty tQty
local {mode $= flip} $ compareType ctx sArg tArg -- contra
compareType (ctx :< sArg) sRes.term tRes.term
compareType' ctx (Sig {fst = sFst, snd = sSnd, _})
(Sig {fst = tFst, snd = tSnd, _}) = do
compareType ctx sFst tFst
compareType (ctx :< sFst) sSnd.term tSnd.term
compareType' ctx (Eq {ty = sTy, l = sl, r = sr, _})
(Eq {ty = tTy, l = tl, r = tr, _}) = do
compareType ctx sTy.zero tTy.zero
compareType ctx sTy.one tTy.one
local {mode := Equal} $ do
Term.compare0 ctx sTy.zero sl tl
Term.compare0 ctx sTy.one sr tr
compareType' ctx (E e) (E f) = do
-- no fanciness needed here cos anything other than a neutral
-- has been inlined by whnfD
Elim.compare0 ctx e f
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||| assumes the elim is already typechecked! only does the work necessary
||| to calculate the overall type
private covering
computeElimType : TContext q 0 n -> (e : Elim q 0 n) ->
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(0 ne : NotRedex defs e) ->
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m (Term q 0 n)
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computeElimType ctx (F x) _ = do
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defs <- lookupFree' defs x
pure $ defs.type.get
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computeElimType ctx (B i) _ = do
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pure $ ctx !! i
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computeElimType ctx (f :@ s) ne = do
(_, arg, res) <- expectPi defs !(computeElimType ctx f (noOr1 ne))
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pure $ sub1 res (s :# arg)
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computeElimType ctx (CasePair {pair, ret, _}) _ = do
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pure $ sub1 ret pair
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computeElimType ctx (f :% p) ne = do
(ty, _, _) <- expectEq defs !(computeElimType ctx f (noOr1 ne))
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pure $ dsub1 ty p
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computeElimType ctx (_ :# ty) _ = do
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pure ty
private covering
replaceEnd : TContext q 0 n ->
(e : Elim q 0 n) -> DimConst -> (0 ne : NotRedex defs e) ->
m (Elim q 0 n)
replaceEnd ctx e p ne = do
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(ty, l, r) <- expectEq defs !(computeElimType ctx e ne)
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pure $ ends l r p :# dsub1 ty (K p)
namespace Elim
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-- [fixme] the following code ends up repeating a lot of work in the
-- computeElimType calls. the results should be shared better
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export covering %inline
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compare0 : TContext q 0 n -> (e, f : Elim q 0 n) -> m ()
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compare0 ctx e f =
let Element e ne = whnfD defs e
Element f nf = whnfD defs f
in
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-- [fixme] there is a better way to do this "isSubSing" stuff for sure
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unless (isSubSing defs !(computeElimType ctx e ne)) $
compare0' ctx e f ne nf
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private covering
compare0' : TContext q 0 n ->
(e, f : Elim q 0 n) ->
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(0 ne : NotRedex defs e) -> (0 nf : NotRedex defs f) ->
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m ()
-- replace applied equalities with the appropriate end first
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-- e.g. e : Eq [i ⇒ A] s t ⊢ e 𝟎 = s : A𝟎/i
compare0' ctx (e :% K p) f ne nf =
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compare0 ctx !(replaceEnd ctx e p $ noOr1 ne) f
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compare0' ctx e (f :% K q) ne nf =
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compare0 ctx e !(replaceEnd ctx f q $ noOr1 nf)
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compare0' _ e@(F x) f@(F y) _ _ = unless (x == y) $ clashE e f
compare0' _ e@(F _) f _ _ = clashE e f
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compare0' ctx e@(B i) f@(B j) _ _ = unless (i == j) $ clashE e f
compare0' _ e@(B _) f _ _ = clashE e f
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compare0' ctx (e :@ s) (f :@ t) ne nf =
local {mode := Equal} $ do
compare0 ctx e f
(_, arg, _) <- expectPi defs !(computeElimType ctx e (noOr1 ne))
Term.compare0 ctx arg s t
compare0' _ e@(_ :@ _) f _ _ = clashE e f
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compare0' ctx (CasePair epi e _ eret _ _ ebody)
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(CasePair fpi f _ fret _ _ fbody) ne nf =
local {mode := Equal} $ do
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compare0 ctx e f
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ety <- computeElimType ctx e (noOr1 ne)
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compareType (ctx :< ety) eret.term fret.term
(fst, snd) <- expectSig defs ety
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Term.compare0 (ctx :< fst :< snd.term) (substCasePairRet ety eret)
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ebody.term fbody.term
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unless (epi == fpi) $ throwError $ ClashQ epi fpi
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compare0' _ e@(CasePair {}) f _ _ = clashE e f
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compare0' ctx (s :# a) (t :# _) _ _ = Term.compare0 ctx a s t
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' _ e@(_ :# _) f _ _ = clashE e f
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parameters {auto _ : (HasDefs' q _ m, HasErr q m, Eq q)} (ctx : TyContext q d n)
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parameters (mode : EqMode)
namespace Term
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export covering
compare : (ty, s, t : Term q d n) -> m ()
compare ty s t = do
defs <- ask
runReaderT {m} (MakeEnv {mode}) $
for_ (splits ctx.dctx) $ \th =>
compare0 defs (map (/// th) ctx.tctx)
(ty /// th) (s /// th) (t /// th)
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export covering
compareType : (s, t : Term q d n) -> m ()
compareType s t = do
defs <- ask
runReaderT {m} (MakeEnv {mode}) $
for_ (splits ctx.dctx) $ \th =>
compareType defs (map (/// th) ctx.tctx) (s /// th) (t /// th)
namespace Elim
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||| you don't have to pass the type in but the arguments must still be
||| of the same type!!
export covering %inline
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compare : (e, f : Elim q d n) -> m ()
compare e f = do
defs <- ask
runReaderT {m} (MakeEnv {mode}) $
for_ (splits ctx.dctx) $ \th =>
compare0 defs (map (/// th) ctx.tctx) (e /// th) (f /// th)
namespace Term
export covering %inline
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equal, sub, super : (ty, s, t : Term q d n) -> m ()
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equal = compare Equal
sub = compare Sub
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super = compare Super
export covering %inline
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equalType, subtype, supertype : (s, t : Term q d n) -> m ()
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equalType = compareType Equal
subtype = compareType Sub
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supertype = compareType Super
namespace Elim
export covering %inline
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equal, sub, super : (e, f : Elim q d n) -> m ()
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equal = compare Equal
sub = compare Sub
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super = compare Super