Q.S.T.Reduce ⇒ Q.Reduce and make it use Definition directly
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8 changed files with 43 additions and 97 deletions
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@ -88,43 +88,3 @@ public export %inline
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lookupElim : forall isGlobal.
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Name -> Definitions' q isGlobal -> Maybe (Elim q d n)
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lookupElim x defs = toElim !(lookup x defs)
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parameters {0 isGlobal : _} (defs : Definitions' q isGlobal)
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namespace Term
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public export %inline
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isRedex : Term q d n -> Bool
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isRedex = isRedex $ \x => lookupElim x defs
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public export
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0 IsRedex, NotRedex : Pred $ Term q d n
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IsRedex = So . isRedex
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NotRedex = No . isRedex
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namespace Elim
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public export %inline
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isRedex : Elim q d n -> Bool
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isRedex = isRedex $ \x => lookupElim x defs
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public export
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0 IsRedex, NotRedex : Pred $ Elim q d n
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IsRedex = So . isRedex
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NotRedex = No . isRedex
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public export
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0 NonRedexElim, NonRedexTerm :
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(q : Type) -> (d, n : Nat) -> {isGlobal : Pred q} ->
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Definitions' q isGlobal -> Type
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NonRedexElim q d n defs = Subset (Elim q d n) (NotRedex defs)
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NonRedexTerm q d n defs = Subset (Term q d n) (NotRedex defs)
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parameters {0 isGlobal : _} (defs : Definitions' q isGlobal)
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namespace Term
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export covering %inline
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whnfD : Term q d n -> NonRedexTerm q d n defs
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whnfD = whnf $ \x => lookupElim x defs
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namespace Elim
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export covering %inline
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whnfD : Elim q d n -> NonRedexElim q d n defs
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whnfD = whnf $ \x => lookupElim x defs
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@ -1,7 +1,5 @@
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module Quox.Equal
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import public Quox.Syntax
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import public Quox.Definition
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import public Quox.Typing
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import public Control.Monad.Either
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import public Control.Monad.Reader
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@ -83,7 +81,7 @@ parameters (defs : Definitions' q g)
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public export
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isSubSing : Term q 0 n -> Bool
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isSubSing ty =
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let Element ty nc = whnfD defs ty in
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let Element ty nc = whnf defs ty in
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case ty of
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TYPE _ => False
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Pi {res, _} => isSubSing res.term
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@ -118,9 +116,9 @@ parameters (defs : Definitions' q _) {auto _ : (CanEqual q m, Eq q)}
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compare0 : TContext q 0 n -> (ty, s, t : Term q 0 n) -> m ()
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compare0 ctx ty s t =
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wrapErr (WhileComparingT (MkTyContext new ctx) !mode ty s t) $ do
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let Element ty nty = whnfD defs ty
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Element s ns = whnfD defs s
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Element t nt = whnfD defs t
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let Element ty nty = whnf defs ty
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Element s ns = whnf defs s
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Element t nt = whnf defs t
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tty <- ensureTyCon ty
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compare0' ctx ty s t
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@ -192,8 +190,8 @@ parameters (defs : Definitions' q _) {auto _ : (CanEqual q m, Eq q)}
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export covering %inline
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compareType : TContext q 0 n -> (s, t : Term q 0 n) -> m ()
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compareType ctx s t = do
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let Element s ns = whnfD defs s
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Element t nt = whnfD defs t
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let Element s ns = whnf defs s
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Element t nt = whnf defs t
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ts <- ensureTyCon s
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tt <- ensureTyCon t
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st <- either pure (const $ clashT (TYPE UAny) s t) $
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@ -245,7 +243,7 @@ parameters (defs : Definitions' q _) {auto _ : (CanEqual q m, Eq q)}
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compareType' ctx (E e) (E f) = do
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-- no fanciness needed here cos anything other than a neutral
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-- has been inlined by whnfD
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-- has been inlined by whnf
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Elim.compare0 ctx e f
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||| performs the minimum work required to recompute the type of an elim.
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@ -291,8 +289,8 @@ parameters (defs : Definitions' q _) {auto _ : (CanEqual q m, Eq q)}
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compare0 : TContext q 0 n -> (e, f : Elim q 0 n) -> m ()
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compare0 ctx e f =
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wrapErr (WhileComparingE (MkTyContext new ctx) !mode e f) $ do
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let Element e ne = whnfD defs e
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Element f nf = whnfD defs f
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let Element e ne = whnf defs e
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Element f nf = whnf defs f
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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)) $
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compare0' ctx e f ne nf
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@ -1,8 +1,8 @@
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module Quox.Syntax.Term.Reduce
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module Quox.Reduce
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import Quox.No
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import Quox.Syntax.Term.Base
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import Quox.Syntax.Term.Subst
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import Quox.Syntax
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import Quox.Definition
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import Data.Vect
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import Data.Maybe
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@ -125,10 +125,6 @@ parameters (th : DSubst dfrom dto) (ph : TSubst q dto from to)
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pushSubstsWith' e = (pushSubstsWith th ph e).fst
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public export 0
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Lookup : TermLike
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Lookup q d n = Name -> Maybe $ Elim q d n
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public export %inline
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isLamHead : Elim {} -> Bool
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isLamHead (Lam {} :# Pi {}) = True
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@ -154,12 +150,12 @@ isAnn : Elim {} -> Bool
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isAnn (_ :# _) = True
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isAnn _ = False
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parameters (g : Lookup q d n)
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parameters (defs : Definitions' q g)
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mutual
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namespace Elim
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public export
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isRedex : Elim q d n -> Bool
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isRedex (F x) = isJust $ g x
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isRedex (F x) {d, n} = isJust $ lookupElim x defs {d, n}
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isRedex (B _) = False
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isRedex (f :@ _) = isRedex f || isLamHead f
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isRedex (CasePair {pair, _}) = isRedex pair || isPairHead pair
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@ -188,18 +184,19 @@ parameters (g : Lookup q d n)
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IsRedex = So . isRedex
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NotRedex = No . isRedex
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public export
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0 NonRedexElim, NonRedexTerm : (q, d, n : _) -> Lookup q d n -> Type
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NonRedexElim q d n g = Subset (Elim q d n) (NotRedex g)
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NonRedexTerm q d n g = Subset (Term q d n) (NotRedex g)
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parameters (q : Type) (d, n : Nat) {g : q -> Type} (defs : Definitions' q g)
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public export
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0 NonRedexElim, NonRedexTerm : Type
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NonRedexElim = Subset (Elim q d n) (NotRedex defs)
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NonRedexTerm = Subset (Term q d n) (NotRedex defs)
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parameters (g : Lookup q d n)
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parameters (defs : Definitions' q g)
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mutual
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namespace Elim
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export covering
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whnf : Elim q d n -> NonRedexElim q d n g
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whnf (F x) with (g x) proof eq
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whnf : Elim q d n -> NonRedexElim q d n defs
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whnf (F x) with (lookupElim x defs) proof eq
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_ | Just y = whnf y
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_ | Nothing = Element (F x) $ rewrite eq in Ah
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@ -251,7 +248,7 @@ parameters (g : Lookup q d n)
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namespace Term
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export covering
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whnf : Term q d n -> NonRedexTerm q d n g
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whnf : Term q d n -> NonRedexTerm q d n defs
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whnf t@(TYPE {}) = Element t Ah
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whnf t@(Pi {}) = Element t Ah
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whnf t@(Lam {}) = Element t Ah
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@ -3,5 +3,4 @@ module Quox.Syntax.Term
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import public Quox.Syntax.Term.Base
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import public Quox.Syntax.Term.Split
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import public Quox.Syntax.Term.Subst
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import public Quox.Syntax.Term.Reduce
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import public Quox.Syntax.Term.Pretty
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@ -1,14 +1,11 @@
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module Quox.Typing
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import public Quox.Syntax
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import public Quox.Context
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import public Quox.Definition
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import public Quox.Reduce
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import Data.Nat
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import public Data.SortedMap
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import Control.Monad.Either
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import Control.Monad.Reader
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import Control.Monad.State
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import public Control.Monad.Either
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import Generics.Derive
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%hide TT.Name
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@ -206,27 +203,27 @@ parameters {auto _ : HasErr q m} (defs : Definitions' q _)
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export covering %inline
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expectTYPE : Term q d n -> m Universe
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expectTYPE s =
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case fst $ whnfD defs s of
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case fst $ whnf defs s of
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TYPE l => pure l
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_ => throwError $ ExpectedTYPE s
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export covering %inline
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expectPi : Term q d n -> m (q, Term q d n, ScopeTerm q d n)
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expectPi s =
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case fst $ whnfD defs s of
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case fst $ whnf defs s of
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Pi {qty, arg, res, _} => pure (qty, arg, res)
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_ => throwError $ ExpectedPi s
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export covering %inline
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expectSig : Term q d n -> m (Term q d n, ScopeTerm q d n)
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expectSig s =
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case fst $ whnfD defs s of
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case fst $ whnf defs s of
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Sig {fst, snd, _} => pure (fst, snd)
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_ => throwError $ ExpectedSig s
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export covering %inline
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expectEq : Term q d n -> m (DScopeTerm q d n, Term q d n, Term q d n)
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expectEq s =
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case fst $ whnfD defs s of
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case fst $ whnf defs s of
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Eq {ty, l, r, _} => pure (ty, l, r)
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_ => throwError $ ExpectedEq s
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@ -22,12 +22,12 @@ modules =
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Quox.Syntax.Term,
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Quox.Syntax.Term.Base,
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Quox.Syntax.Term.Pretty,
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Quox.Syntax.Term.Reduce,
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Quox.Syntax.Term.Split,
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Quox.Syntax.Term.Subst,
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Quox.Syntax.Universe,
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Quox.Syntax.Var,
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Quox.Definition,
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Quox.Reduce,
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Quox.Context,
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Quox.Equal,
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Quox.Name,
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@ -8,35 +8,30 @@ import TAP
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testWhnf : Eq b => Show b => (a -> (Subset b _)) -> String -> a -> b -> Test
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testWhnf whnf label from to = test "\{label} (whnf)" $
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let result = fst (whnf from) in
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if result == to
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then Right ()
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else with Prelude.(::)
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Left [("expected", to), ("received", result)]
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testWhnf whnf label from to = test "\{label} (whnf)" $ do
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let result = fst (whnf from)
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unless (result == to) $
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Left [("exp", to), ("got", result)] {a = List (String, b)}
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testNoStep : Eq a => Show a => (a -> (Subset a _)) -> String -> a -> Test
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testNoStep whnf label e = test "\{label} (no step)" $
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let result = fst (whnf e) in
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if result == e
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then Right ()
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else with Prelude.(::)
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Left [("reduced", result)]
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testNoStep whnf label e = test "\{label} (no step)" $ do
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let result = fst (whnf e)
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unless (result == e) $ Left [("reduced", result)] {a = List (String, a)}
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parameters {default empty defs : Definitions Three} {default 0 d, n : Nat}
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testWhnfT : String -> Term Three d n -> Term Three d n -> Test
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testWhnfT = testWhnf (whnfD defs)
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testWhnfT = testWhnf (whnf defs)
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testWhnfE : String -> Elim Three d n -> Elim Three d n -> Test
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testWhnfE = testWhnf (whnfD defs)
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testWhnfE = testWhnf (whnf defs)
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testNoStepE : String -> Elim Three d n -> Test
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testNoStepE = testNoStep (whnfD defs)
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testNoStepE = testNoStep (whnf defs)
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testNoStepT : String -> Term Three d n -> Test
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testNoStepT = testNoStep (whnfD defs)
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testNoStepT = testNoStep (whnf defs)
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tests = "whnf" :- [
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@ -51,7 +51,7 @@ PrettyHL q => ToInfo (Error q) where
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("right", prettyStr True q)]
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toInfo (NotType ty) =
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[("type", "NotType"),
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("actual", prettyStr True ty)]
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("got", prettyStr True ty)]
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toInfo (WrongType ty s t) =
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[("type", "WrongType"),
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("ty", prettyStr True ty),
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