### changeset 219:43021d2b8756

separate cardinal
author Shinji KONO Wed, 07 Aug 2019 09:50:51 +0900 eee983e4b402 95a26d1698f4 OD.agda cardinal.agda 2 files changed, 105 insertions(+), 80 deletions(-) [+]
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```--- a/OD.agda	Tue Aug 06 15:50:14 2019 +0900
+++ b/OD.agda	Wed Aug 07 09:50:51 2019 +0900
@@ -622,83 +622,3 @@
; eq← = λ {x} lt → ⊥-elim ( ¬x<0 lt )
}

-         ------------
-         --
-         -- Onto map
-         --          def X x ->  xmap
-         --     X ---------------------------> Y
-         --          ymap   <-  def Y y
-         --
-         record Onto {n : Level } (X Y : OD {n})  : Set (suc n) where
-            field
-                xmap : (x : Ordinal {n}) → def X x → Ordinal {n}
-                ymap : (y : Ordinal {n}) → def Y y → Ordinal {n}
-                ymap-on-X  : {y :  Ordinal {n} } → (lty : def Y y ) → def X (ymap y lty)
-                onto-iso   : {y :  Ordinal {n} } → (lty : def Y y ) → xmap  ( ymap y lty ) (ymap-on-X lty ) ≡ y
-
-         record Cardinal {n : Level } (X  : OD {n}) : Set (suc n) where
-            field
-                cardinal : Ordinal {n}
-                conto : Onto (Ord cardinal) X
-                cmax : ( y : Ordinal {n} ) → cardinal o< y → ¬ Onto (Ord y) X
-
-         cardinal : {n : Level } (X  : OD {suc n}) → Cardinal X
-         cardinal {n} X = record {
-                cardinal = sup-o ( λ x → proj1 ( cardinal-p x) )
-              ; conto = onto
-              ; cmax = cmax
-            } where
-             cardinal-p : (x  : Ordinal {suc n}) →  ( Ordinal {suc n} ∧ Dec (Onto (Ord x) X) )
-             cardinal-p x with p∨¬p ( Onto (Ord x) X )
-             cardinal-p x | case1 True = record { proj1 = x ; proj2 = yes True }
-             cardinal-p x | case2 False = record { proj1 = o∅ ; proj2 = no False }
-             onto-set : OD {suc n}
-             onto-set = record { def = λ x →  {!!} } -- Onto (Ord (sup-o (λ x → proj1 (cardinal-p x)))) X }
-             onto : Onto (Ord (sup-o (λ x → proj1 (cardinal-p x)))) X
-             onto = record {
-                        xmap = xmap
-                     ;  ymap = ymap
-                     ;  ymap-on-X  = ymap-on-X
-                     ;  onto-iso = onto-iso
-               } where
-                --
-                -- Ord cardinal itself has no onto map, but if we have x o< cardinal, there is one
-                --    od→ord X o< cardinal, so if we have def Y y or def X y, there is an Onto (Ord y) X
-                Y = (Ord (sup-o (λ x → proj1 (cardinal-p x))))
-                lemma1 : (y : Ordinal {suc n}) → def Y y  →  Onto (Ord y) X
-                lemma1 y y<Y with sup-o< {suc n} {λ x → proj1 ( cardinal-p x)} {y}
-                ... | t = {!!}
-                lemma2 :  def Y (od→ord X)
-                lemma2 = {!!}
-                xmap : (x : Ordinal {suc n}) → def Y x → Ordinal {suc n}
-                xmap = {!!}
-                ymap : (y : Ordinal {suc n}) → def X y → Ordinal {suc n}
-                ymap = {!!}
-                ymap-on-X  : {y :  Ordinal {suc n} } → (lty : def X y ) → def Y (ymap y lty)
-                ymap-on-X  = {!!}
-                onto-iso   : {y :  Ordinal {suc n} } → (lty : def X y ) → xmap  (ymap y lty) (ymap-on-X lty ) ≡ y
-                onto-iso = {!!}
-             cmax : (y : Ordinal) → sup-o (λ x → proj1 (cardinal-p x)) o< y → ¬ Onto (Ord y) X
-             cmax y lt ontoy = o<> lt (o<-subst {suc n} {_} {_} {y} {sup-o (λ x → proj1 (cardinal-p x))}
-                (sup-o< {suc n} {λ x → proj1 ( cardinal-p x)}{y}  ) lemma refl ) where
-                   lemma : proj1 (cardinal-p y) ≡ y
-                   lemma with  p∨¬p ( Onto (Ord y) X )
-                   lemma | case1 x = refl
-                   lemma | case2 not = ⊥-elim ( not ontoy )
-
-func : {n : Level}  → (f : Ordinal {suc n} → Ordinal {suc n}) → OD {suc n}
-func {n} f = record { def = λ y → (x : Ordinal {suc n}) → y ≡ f x }
-
-Func : {n : Level}  → OD {suc n}
-Func {n} = record { def = λ x →  (f : Ordinal {suc n} → Ordinal {suc n}) → x ≡ od→ord (func f) }
-
-odmap : {n : Level}  → { x : OD {suc n} } → Func ∋ x → Ordinal {suc n} → OD {suc n}
-odmap {n} {f} lt x = record { def = λ y → def f y }
-
-
-         -----
-         --  All cardinal is ℵ0,  since we are working on Countable Ordinal,
-         --  Power ω is larger than ℵ0, so it has no cardinal.
-
-
-```
```--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/cardinal.agda	Wed Aug 07 09:50:51 2019 +0900
@@ -0,0 +1,105 @@
+open import Level
+module cardinal where
+
+open import zf
+open import ordinal
+open import logic
+open import OD
+open import Data.Nat renaming ( zero to Zero ; suc to Suc ;  ℕ to Nat ; _⊔_ to _n⊔_ )
+open import  Relation.Binary.PropositionalEquality
+open import Data.Nat.Properties
+open import Data.Empty
+open import Relation.Nullary
+open import Relation.Binary
+open import Relation.Binary.Core
+
+open OD.OD
+
+open Ordinal
+open _∧_
+open _∨_
+open Bool
+
+------------
+--
+-- Onto map
+--          def X x ->  xmap
+--     X ---------------------------> Y
+--          ymap   <-  def Y y
+--
+record Onto {n : Level } (X Y : OD {n})  : Set (suc n) where
+   field
+       xmap : (x : Ordinal {n}) → def X x → Ordinal {n}
+       ymap : (y : Ordinal {n}) → def Y y → Ordinal {n}
+       ymap-on-X  : {y :  Ordinal {n} } → (lty : def Y y ) → def X (ymap y lty)
+       onto-iso   : {y :  Ordinal {n} } → (lty : def Y y ) → xmap  ( ymap y lty ) (ymap-on-X lty ) ≡ y
+
+record Cardinal {n : Level } (X  : OD {n}) : Set (suc n) where
+   field
+       cardinal : Ordinal {n}
+       conto : Onto (Ord cardinal) X
+       cmax : ( y : Ordinal {n} ) → cardinal o< y → ¬ Onto (Ord y) X
+
+cardinal : {n : Level } (X  : OD {suc n}) → Cardinal X
+cardinal {n} X = record {
+       cardinal = sup-o ( λ x → proj1 ( cardinal-p x) )
+     ; conto = onto
+     ; cmax = cmax
+   } where
+    cardinal-p : (x  : Ordinal {suc n}) →  ( Ordinal {suc n} ∧ Dec (Onto (Ord x) X) )
+    cardinal-p x with p∨¬p ( Onto (Ord x) X )
+    cardinal-p x | case1 True = record { proj1 = x ; proj2 = yes True }
+    cardinal-p x | case2 False = record { proj1 = o∅ ; proj2 = no False }
+    onto-set : OD {suc n}
+    onto-set = record { def = λ x →  {!!} } -- Onto (Ord (sup-o (λ x → proj1 (cardinal-p x)))) X }
+    onto : Onto (Ord (sup-o (λ x → proj1 (cardinal-p x)))) X
+    onto = record {
+               xmap = xmap
+            ;  ymap = ymap
+            ;  ymap-on-X  = ymap-on-X
+            ;  onto-iso = onto-iso
+      } where
+       --
+       -- Ord cardinal itself has no onto map, but if we have x o< cardinal, there is one
+       --    od→ord X o< cardinal, so if we have def Y y or def X y, there is an Onto (Ord y) X
+       Y = (Ord (sup-o (λ x → proj1 (cardinal-p x))))
+       lemma1 : (y : Ordinal {suc n}) → def Y y  →  Onto (Ord y) X
+       lemma1 y y<Y with sup-o< {suc n} {λ x → proj1 ( cardinal-p x)} {y}
+       ... | t = {!!}
+       lemma2 :  def Y (od→ord X)
+       lemma2 = {!!}
+       xmap : (x : Ordinal {suc n}) → def Y x → Ordinal {suc n}
+       xmap = {!!}
+       ymap : (y : Ordinal {suc n}) → def X y → Ordinal {suc n}
+       ymap = {!!}
+       ymap-on-X  : {y :  Ordinal {suc n} } → (lty : def X y ) → def Y (ymap y lty)
+       ymap-on-X  = {!!}
+       onto-iso   : {y :  Ordinal {suc n} } → (lty : def X y ) → xmap  (ymap y lty) (ymap-on-X lty ) ≡ y
+       onto-iso = {!!}
+    cmax : (y : Ordinal) → sup-o (λ x → proj1 (cardinal-p x)) o< y → ¬ Onto (Ord y) X
+    cmax y lt ontoy = o<> lt (o<-subst {suc n} {_} {_} {y} {sup-o (λ x → proj1 (cardinal-p x))}
+       (sup-o< {suc n} {λ x → proj1 ( cardinal-p x)}{y}  ) lemma refl ) where
+          lemma : proj1 (cardinal-p y) ≡ y
+          lemma with  p∨¬p ( Onto (Ord y) X )
+          lemma | case1 x = refl
+          lemma | case2 not = ⊥-elim ( not ontoy )
+
+func : {n : Level}  → (f : Ordinal {suc n} → Ordinal {suc n}) → OD {suc n}
+func {n} f = record { def = λ y → (x : Ordinal {suc n}) → y ≡ f x }
+
+Func : {n : Level}  → OD {suc n}
+Func {n} = record { def = λ x →  (f : Ordinal {suc n} → Ordinal {suc n}) → x ≡ od→ord (func f) }
+
+odmap : {n : Level}  → { x : OD {suc n} } → Func ∋ x → Ordinal {suc n} → OD {suc n}
+odmap {n} {f} lt x = record { def = λ y → def f y }
+
+lemma1 :  {n : Level}  → { x : OD {suc n} } → Func ∋ x → {!!} -- ¬ ( (f : Ordinal {suc n} → Ordinal {suc n}) →  ¬ ( x ≡ od→ord (func f)  ))
+lemma1 = {!!}
+
+
+-----
+--  All cardinal is ℵ0,  since we are working on Countable Ordinal,
+--  Power ω is larger than ℵ0, so it has no cardinal.
+
+
+```