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@ -505,67 +505,65 @@ Iso A B = (f : A -> B) * isIso f |
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-- https://github.com/mortberg/cubicaltt/blob/master/experiments/isoToEquiv.ctt#L7-L55 |
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IsoToEquiv : {A : Type} {B : Type} -> Iso A B -> Equiv A B |
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IsoToEquiv {A} {B} iso = |
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let |
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f = iso.1 |
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g = iso.2.1 |
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s = iso.2.2.1 |
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t = iso.2.2.2 |
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lemIso : (y : B) (x0 : A) (x1 : A) (p0 : Path (f x0) y) (p1 : Path (f x1) y) |
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-> PathP (\i -> fiber f y) (x0, p0) (x1, p1) |
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lemIso y x0 x1 p0 p1 = |
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let |
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rem0 : Path x0 (g y) |
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rem0 i = comp (\i -> A) (\k [ (i = i0) -> t x0 k, (i = i1) -> g y ]) (inS (g (p0 i))) |
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rem1 : Path x1 (g y) |
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rem1 i = comp (\i -> A) (\k [ (i = i0) -> t x1 k, (i = i1) -> g y ]) (inS (g (p1 i))) |
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p : Path x0 x1 |
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p i = comp (\i -> A) (\k [ (i = i0) -> rem0 (inot k), (i = i1) -> rem1 (inot k) ]) (inS (g y)) |
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fill0 : I -> I -> A |
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fill0 i j = comp (\i -> A) (\k [ (i = i0) -> t x0 (iand j k) |
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, (i = i1) -> g y |
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, (j = i0) -> g (p0 i) |
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]) |
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(inS (g (p0 i))) |
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fill1 : I -> I -> A |
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fill1 i j = comp (\i -> A) (\k [ (i = i0) -> t x1 (iand j k) |
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, (i = i1) -> g y |
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, (j = i0) -> g (p1 i) ]) |
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(inS (g (p1 i))) |
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fill2 : I -> I -> A |
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fill2 i j = comp (\i -> A) (\k [ (i = i0) -> rem0 (ior j (inot k)) |
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, (i = i1) -> rem1 (ior j (inot k)) |
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, (j = i1) -> g y ]) |
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(inS (g y)) |
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sq : I -> I -> A |
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sq i j = comp (\i -> A) (\k [ (i = i0) -> fill0 j (inot k) |
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, (i = i1) -> fill1 j (inot k) |
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, (j = i1) -> g y |
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, (j = i0) -> t (p i) (inot k) ]) |
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(inS (fill2 i j)) |
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sq1 : I -> I -> B |
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sq1 i j = comp (\i -> B) (\k [ (i = i0) -> s (p0 j) k |
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, (i = i1) -> s (p1 j) k |
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, (j = i0) -> s (f (p i)) k |
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, (j = i1) -> s y k |
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]) |
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(inS (f (sq i j))) |
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in \i -> (p i, \j -> sq1 i j) |
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fCenter : (y : B) -> fiber f y |
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fCenter y = (g y, s y) |
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fIsCenter : (y : B) (w : fiber f y) -> Path (fCenter y) w |
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fIsCenter y w = lemIso y (fCenter y).1 w.1 (fCenter y).2 w.2 |
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in (f, \y -> (fCenter y, fIsCenter y)) |
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IsoToEquiv {A} {B} iso = (f, \y -> (fCenter y, fIsCenter y)) where |
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f = iso.1 |
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g = iso.2.1 |
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s = iso.2.2.1 |
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t = iso.2.2.2 |
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lemIso : (y : B) (x0 : A) (x1 : A) (p0 : Path (f x0) y) (p1 : Path (f x1) y) |
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-> PathP (\i -> fiber f y) (x0, p0) (x1, p1) |
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lemIso y x0 x1 p0 p1 = |
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let |
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rem0 : Path x0 (g y) |
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rem0 i = comp (\i -> A) (\k [ (i = i0) -> t x0 k, (i = i1) -> g y ]) (inS (g (p0 i))) |
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rem1 : Path x1 (g y) |
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rem1 i = comp (\i -> A) (\k [ (i = i0) -> t x1 k, (i = i1) -> g y ]) (inS (g (p1 i))) |
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p : Path x0 x1 |
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p i = comp (\i -> A) (\k [ (i = i0) -> rem0 (inot k), (i = i1) -> rem1 (inot k) ]) (inS (g y)) |
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fill0 : I -> I -> A |
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fill0 i j = comp (\i -> A) (\k [ (i = i0) -> t x0 (iand j k) |
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, (i = i1) -> g y |
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, (j = i0) -> g (p0 i) |
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]) |
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(inS (g (p0 i))) |
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fill1 : I -> I -> A |
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fill1 i j = comp (\i -> A) (\k [ (i = i0) -> t x1 (iand j k) |
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, (i = i1) -> g y |
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, (j = i0) -> g (p1 i) ]) |
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(inS (g (p1 i))) |
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fill2 : I -> I -> A |
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fill2 i j = comp (\i -> A) (\k [ (i = i0) -> rem0 (ior j (inot k)) |
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, (i = i1) -> rem1 (ior j (inot k)) |
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, (j = i1) -> g y ]) |
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(inS (g y)) |
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sq : I -> I -> A |
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sq i j = comp (\i -> A) (\k [ (i = i0) -> fill0 j (inot k) |
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, (i = i1) -> fill1 j (inot k) |
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, (j = i1) -> g y |
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, (j = i0) -> t (p i) (inot k) ]) |
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(inS (fill2 i j)) |
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sq1 : I -> I -> B |
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sq1 i j = comp (\i -> B) (\k [ (i = i0) -> s (p0 j) k |
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, (i = i1) -> s (p1 j) k |
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, (j = i0) -> s (f (p i)) k |
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, (j = i1) -> s y k |
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]) |
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(inS (f (sq i j))) |
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in \i -> (p i, \j -> sq1 i j) |
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fCenter : (y : B) -> fiber f y |
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fCenter y = (g y, s y) |
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fIsCenter : (y : B) (w : fiber f y) -> Path (fCenter y) w |
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fIsCenter y w = lemIso y (fCenter y).1 w.1 (fCenter y).2 w.2 |
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-- We can prove that any involutive function is an isomorphism, since |
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-- such a function is its own inverse. |
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