148 lines
4.4 KiB
Idris
148 lines
4.4 KiB
Idris
module Quox.Typechecker
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import public Quox.Syntax
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import public Quox.Typing
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import public Quox.Equal
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import public Control.Monad.Either
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%default total
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private covering %inline
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expectTYPE : MonadError Error m => Term d n -> m Universe
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expectTYPE s =
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case (whnfT s).fst of
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TYPE l => pure l
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_ => throwError $ ExpectedTYPE s
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private covering %inline
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expectPi : MonadError Error m => Term d n ->
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m (Qty, Term d n, ScopeTerm d n)
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expectPi ty =
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case (whnfT ty).fst of
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Pi qty _ arg res => pure (qty, arg, res)
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_ => throwError $ ExpectedPi ty
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private %inline
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expectEqualQ : MonadError Error m =>
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(expect, actual : Qty) -> m ()
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expectEqualQ pi rh =
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unless (pi == rh) $ throwError $ ClashQ pi rh
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private %inline
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popQ : MonadError Error m => Qty -> QOutput (S n) -> m (QOutput n)
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popQ pi (qctx :< rh) = expectEqualQ pi rh $> qctx
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private %inline
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tail : TyContext d (S n) -> TyContext d n
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tail = {tctx $= tail, qctx $= tail}
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private %inline
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weakI : InferResult d n -> InferResult d (S n)
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weakI = {type $= weakT, qout $= (:< zero)}
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private
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lookupBound : {n : Nat} -> Qty -> Var n -> TyContext d n -> InferResult d n
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lookupBound pi VZ (MkTyContext {tctx = _ :< ty, _}) =
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InfRes {type = weakT ty, qout = zero :< pi}
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lookupBound pi (VS i) ctx =
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weakI $ lookupBound pi i (tail ctx)
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private %inline
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subjMult : Qty -> Qty -> Subset Qty IsSubj
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subjMult sg qty =
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if sg == Zero || qty == Zero
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then Element Zero %search
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else Element One %search
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public export
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CanTC : (Type -> Type) -> Type
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CanTC m = (MonadError Error m, MonadReader Definitions m)
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parameters {auto _ : CanTC m}
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mutual
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-- [todo] it seems like the options here for dealing with substitutions are
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-- to either push them or parametrise the whole typechecker over ambient
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-- substitutions. both of them seem like the same amount of work for the
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-- computer but pushing is less work for the me
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export covering %inline
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check : {d, n : Nat} ->
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(ctx : TyContext d n) -> (sg : Qty) -> (0 _ : IsSubj sg) =>
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(subj : Term d n) -> (ty : Term d n) ->
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m (CheckResult n)
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check ctx sg subj ty = check' ctx sg (pushSubstsT subj) ty
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export covering %inline
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infer : {d, n : Nat} ->
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(ctx : TyContext d n) -> (sg : Qty) -> (0 _ : IsSubj sg) =>
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(subj : Elim d n) ->
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m (InferResult d n)
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infer ctx sg subj = infer' ctx sg (pushSubstsE subj)
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export covering
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check' : {d, n : Nat} ->
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(ctx : TyContext d n) -> (sg : Qty) -> (0 _ : IsSubj sg) =>
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(subj : NotCloTerm d n) -> (ty : Term d n) ->
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m (CheckResult n)
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check' ctx sg (Element (TYPE l) _) ty = do
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l' <- expectTYPE ty
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expectEqualQ zero sg
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unless (l < l') $ throwError $ BadUniverse l l'
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pure zero
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check' ctx sg (Element (Pi qty x arg res) _) ty = do
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l <- expectTYPE ty
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expectEqualQ zero sg
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ignore $ check ctx zero arg (TYPE l)
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case res of
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TUsed res => ignore $ check (extendTy arg zero ctx) zero res (TYPE l)
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TUnused res => ignore $ check ctx zero res (TYPE l)
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pure zero
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check' ctx sg (Element (Lam x body) _) ty = do
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(qty, arg, res) <- expectPi ty
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-- [todo] do this properly?
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let body = fromScopeTerm body; res = fromScopeTerm res
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qout <- check (extendTy arg (sg * qty) ctx) sg body res
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popQ qty qout
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check' ctx sg (Element (E e) _) ty = do
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infres <- infer ctx sg e
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ignore $ check ctx zero ty (TYPE UAny)
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subT infres.type ty
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pure infres.qout
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export covering
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infer' : {d, n : Nat} ->
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(ctx : TyContext d n) -> (sg : Qty) -> (0 _ : IsSubj sg) =>
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(subj : NotCloElim d n) ->
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m (InferResult d n)
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infer' ctx sg (Element (F x) _) = do
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Just g <- asks $ lookup x | Nothing => throwError $ NotInScope x
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when (isZero g) $ expectEqualQ sg Zero
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pure $ InfRes {type = g.type.get, qout = zero}
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infer' ctx sg (Element (B i) _) =
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pure $ lookupBound sg i ctx
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infer' ctx sg (Element (fun :@ arg) _) = do
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funres <- infer ctx sg fun
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(qty, argty, res) <- expectPi funres.type
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let Element sg' _ = subjMult sg qty
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argout <- check ctx sg' arg argty
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pure $ InfRes {type = fromScopeTerm res //. ((arg :# argty) ::: id),
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qout = funres.qout + argout}
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infer' ctx sg (Element (tm :# ty) _) = do
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ignore $ check ctx zero ty (TYPE UAny)
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qout <- check ctx sg tm ty
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pure $ InfRes {type = ty, qout}
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