adamc@1180
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1 con mem' = K ==> fn (nm :: Name) (t :: K) (r :: {K}) (r' :: {K}) =>
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adamc@1180
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2 [[nm] ~ r'] => {Expose : f :: ({K} -> Type) -> f r -> f ([nm = t] ++ r'),
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3 Hide : f :: ({K} -> Type) -> f ([nm = t] ++ r') -> f r}
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4
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5 con mem = K ==> fn (nm :: Name) (t :: K) (r :: {K}) =>
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6 tp :: Type -> (r' :: {K} -> [[nm] ~ r'] => mem' nm t r r' -> tp) -> tp
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7
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8 fun mem [K] [nm :: Name] [t :: K] [r :: {K}] [[nm] ~ r] =
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9 fn [tp :: Type] (f : r' :: {K} -> [[nm] ~ r'] => mem' nm t ([nm = t] ++ r) r' -> tp) =>
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10 f [r] ! (fn [[nm] ~ r] => {Expose = fn [f :: {K} -> Type] x => x,
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11 Hide = fn [f :: {K} -> Type] x => x})
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12
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13 fun mp [K] [K2] [f :: K -> K2] [nm ::: Name] [t ::: K] [r ::: {K}] (m : mem nm t r) =
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14 m [mem nm (f t) (map f r)] (fn [r' :: {K}] [[nm] ~ r'] (m' : mem' nm t r r') =>
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15 fn [tp :: Type] (f : r' :: {K2} -> [[nm] ~ r'] =>
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16 mem' nm (f t) (map f r) r' -> tp) =>
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17 f [map f r'] ! (fn [[nm] ~ map f r'] =>
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18 {Expose = fn [f' :: {K2} -> Type] x =>
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19 m'.Expose [fn r => f' (map f r)] x,
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20 Hide = fn [f' :: {K2} -> Type] x =>
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21 m'.Hide [fn r => f' (map f r)] x}))
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22
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23 fun proj [nm ::: Name] [t ::: Type] [r ::: {Type}] (m : mem nm t r) (r : $r) =
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24 m [t] (fn [r' :: {Type}] [[nm] ~ r'] (m' : mem' nm t r r') =>
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25 (m'.Expose [fn r => $r] r).nm)
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26
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27 fun replace [nm ::: Name] [t ::: Type] [r ::: {Type}] (m : mem nm t r) (r : $r) (v : t) =
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28 m [$r] (fn [r' :: {Type}] [[nm] ~ r'] (m' : mem' nm t r r') =>
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29 m'.Hide [fn r => $r] (m'.Expose [fn r => $r] r -- nm ++ {nm = v}))
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30
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31 fun fold [K] [tf :: ({K} -> Type)] [r ::: {K}]
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32 (f : nm :: Name -> v :: K -> r' :: {K} -> [[nm] ~ r']
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33 => mem nm v r -> tf r' -> tf ([nm = v] ++ r'))
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34 (i : tf []) (fl : folder r) =
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35 @@Incl.fold [tf] [r]
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36 (fn [nm :: Name] [v :: K] [r' :: {K}] [[nm] ~ r'] (i : Incl.incl ([nm = v] ++ r') r) acc =>
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37 f [nm] [v] [r'] ! (Incl.inv1 [nm] [r'] [r] [mem] i mem) acc)
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38 i fl
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