128 lines
4.7 KiB
Idris
128 lines
4.7 KiB
Idris
module Quox.Thin.Eqv
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import public Quox.Thin.Base
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import public Quox.Thin.View
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import Quox.NatExtra
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import Syntax.PreorderReasoning
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%default total
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infix 6 `Eqv`
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private
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uip : (p, q : a = b) -> p = q
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uip Refl Refl = Refl
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public export
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data Eqv : OPE m1 n1 mask1 -> OPE m2 n2 mask2 -> Type where
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EqvStop : Eqv Stop Stop
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EqvDrop : {0 p : OPE m1 n1 mask1} ->
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{0 q : OPE m2 n2 mask2} ->
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Eqv p q -> Eqv (Drop p eq1) (Drop q eq2)
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EqvKeep : {0 p : OPE m1 n1 mask1} ->
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{0 q : OPE m2 n2 mask2} ->
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Eqv p q -> Eqv (Keep p eq1) (Keep q eq2)
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%name Eqv eqv
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export Uninhabited (Stop `Eqv` Drop p e) where uninhabited _ impossible
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export Uninhabited (Stop `Eqv` Keep p e) where uninhabited _ impossible
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export Uninhabited (Drop p e `Eqv` Stop) where uninhabited _ impossible
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export Uninhabited (Drop p e `Eqv` Keep q f) where uninhabited _ impossible
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export Uninhabited (Keep p e `Eqv` Stop) where uninhabited _ impossible
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export Uninhabited (Keep p e `Eqv` Drop q f) where uninhabited _ impossible
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export
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Reflexive (OPE m n mask) Eqv where
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reflexive {x = Stop} = EqvStop
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reflexive {x = Drop {}} = EqvDrop reflexive
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reflexive {x = Keep {}} = EqvKeep reflexive
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export
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symmetric : p `Eqv` q -> q `Eqv` p
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symmetric EqvStop = EqvStop
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symmetric (EqvDrop eqv) = EqvDrop $ symmetric eqv
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symmetric (EqvKeep eqv) = EqvKeep $ symmetric eqv
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export
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transitive : p `Eqv` q -> q `Eqv` r -> p `Eqv` r
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transitive EqvStop EqvStop = EqvStop
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transitive (EqvDrop eqv1) (EqvDrop eqv2) = EqvDrop (transitive eqv1 eqv2)
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transitive (EqvKeep eqv1) (EqvKeep eqv2) = EqvKeep (transitive eqv1 eqv2)
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private
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recompute' : {mask1, mask2, n1, n2 : Nat} ->
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(0 p : OPE m1 n1 mask1) -> (0 q : OPE m2 n2 mask2) ->
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(0 eqv : p `Eqv` q) -> p `Eqv` q
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recompute' p q eqv with %syntactic (view p) | (view q)
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recompute' Stop Stop _ | StopV | StopV = EqvStop
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recompute' (Drop p _) (Drop q _) eqv | DropV _ p | DropV _ q =
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EqvDrop $ recompute' {eqv = let EqvDrop e = eqv in e, _}
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recompute' (Keep p _) (Keep q _) eqv | KeepV _ p | KeepV _ q =
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EqvKeep $ recompute' {eqv = let EqvKeep e = eqv in e, _}
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recompute' (Drop p _) (Keep q _) eqv | DropV _ p | KeepV _ q =
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void $ absurd eqv
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recompute' (Keep p _) (Drop q _) eqv | KeepV _ p | DropV _ q =
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void $ absurd eqv
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private
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recompute : {mask1, mask2, n1, n2 : Nat} ->
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{0 p : OPE m1 n1 mask1} -> {0 q : OPE m2 n2 mask2} ->
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(0 _ : p `Eqv` q) -> p `Eqv` q
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recompute eqv = recompute' {eqv, _}
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export
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eqvIndices : {0 p : OPE m1 n1 mask1} -> {0 q : OPE m2 n2 mask2} ->
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p `Eqv` q -> (m1 = m2, n1 = n2, mask1 = mask2)
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eqvIndices EqvStop = (Refl, Refl, Refl)
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eqvIndices (EqvDrop eqv {eq1 = Refl, eq2 = Refl}) =
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let (Refl, Refl, Refl) = eqvIndices eqv in (Refl, Refl, Refl)
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eqvIndices (EqvKeep eqv {eq1 = Refl, eq2 = Refl}) =
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let (Refl, Refl, Refl) = eqvIndices eqv in (Refl, Refl, Refl)
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export
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0 eqvMask : (p : OPE m1 n mask1) -> (q : OPE m2 n mask2) ->
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mask1 = mask2 -> p `Eqv` q
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eqvMask Stop Stop _ = EqvStop
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eqvMask (Drop ope1 Refl) (Drop {mask = mm2} ope2 eq2) Refl =
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EqvDrop $ eqvMask ope1 ope2 (doubleInj _ _ eq2)
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eqvMask (Drop ope1 Refl) (Keep ope2 eq2) Refl =
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void $ notEvenOdd _ _ eq2
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eqvMask (Keep ope1 eq1) (Keep ope2 eq2) Refl =
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EqvKeep $ eqvMask ope1 ope2 (doubleInj _ _ $ inj S $ trans (sym eq1) eq2)
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eqvMask (Keep ope1 eq1) (Drop ope2 eq2) Refl =
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void $ notEvenOdd _ _ $ trans (sym eq2) eq1
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export
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0 eqvEq : (p, q : OPE m n mask) -> p `Eqv` q -> p === q
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eqvEq Stop Stop EqvStop = Refl
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eqvEq (Drop p eq1) (Drop q eq2) (EqvDrop eqv)
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with %syntactic (doubleInj _ _ $ trans (sym eq1) eq2)
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_ | Refl = cong2 Drop (eqvEq p q eqv) (uip eq1 eq2)
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eqvEq (Keep p eq1) (Keep q eq2) (EqvKeep eqv)
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with %syntactic (doubleInj _ _ $ inj S $ trans (sym eq1) eq2)
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_ | Refl = cong2 Keep (eqvEq p q eqv) (uip eq1 eq2)
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export
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0 eqvEq' : (p : OPE m1 n1 mask1) -> (q : OPE m2 n2 mask2) ->
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p `Eqv` q -> p ~=~ q
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eqvEq' p q eqv = let (Refl, Refl, Refl) = eqvIndices eqv in eqvEq p q eqv
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export
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0 maskEqInner : (0 ope1 : OPE m1 n mask1) -> (0 ope2 : OPE m2 n mask2) ->
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mask1 = mask2 -> m1 = m2
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maskEqInner Stop Stop _ = Refl
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maskEqInner (Drop ope1 Refl) (Drop ope2 Refl) eq =
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maskEqInner ope1 ope2 (doubleInj _ _ eq)
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maskEqInner (Keep ope1 Refl) (Keep ope2 Refl) eq =
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cong S $ maskEqInner ope1 ope2 $ doubleInj _ _ $ inj S eq
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maskEqInner (Drop ope1 Refl) (Keep ope2 Refl) eq = void $ notEvenOdd _ _ eq
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maskEqInner (Keep {mask = mask1'} ope1 eq1) (Drop {mask = mask2'} ope2 eq2) eq =
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-- matching on eq1, eq2, or eq here triggers that weird coverage bug ☹
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void $ notEvenOdd _ _ $ Calc $
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|~ mask2' + mask2'
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~~ mask2 ..<(eq2)
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~~ mask1 ..<(eq)
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~~ S (mask1' + mask1') ...(eq1)
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