Mercurial > hg > Members > kono > Proof > ZF-in-agda
annotate generic-filter.agda @ 410:6dcea4c7cba1
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author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
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date | Wed, 29 Jul 2020 12:42:05 +0900 |
parents | 48ea49494fd1 |
children | 6eaab908130e |
rev | line source |
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190 | 1 open import Level |
236 | 2 open import Ordinals |
387 | 3 module generic-filter {n : Level } (O : Ordinals {n}) where |
236 | 4 |
387 | 5 import filter |
190 | 6 open import zf |
236 | 7 open import logic |
387 | 8 open import partfunc {n} O |
236 | 9 import OD |
193 | 10 |
363 | 11 open import Relation.Nullary |
12 open import Relation.Binary | |
13 open import Data.Empty | |
190 | 14 open import Relation.Binary |
15 open import Relation.Binary.Core | |
363 | 16 open import Relation.Binary.PropositionalEquality |
191
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17 open import Data.Nat renaming ( zero to Zero ; suc to Suc ; ℕ to Nat ; _⊔_ to _n⊔_ ) |
363 | 18 import BAlgbra |
293 | 19 |
20 open BAlgbra O | |
191
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21 |
236 | 22 open inOrdinal O |
23 open OD O | |
24 open OD.OD | |
277
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25 open ODAxiom odAxiom |
190 | 26 |
294
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27 import ODC |
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28 |
387 | 29 open filter O |
30 | |
236 | 31 open _∧_ |
32 open _∨_ | |
33 open Bool | |
34 | |
265 | 35 |
331 | 36 open HOD |
37 | |
379 | 38 ------- |
39 -- the set of finite partial functions from ω to 2 | |
40 -- | |
41 -- | |
42 | |
392 | 43 open import Data.List hiding (filter) |
387 | 44 open import Data.Maybe |
379 | 45 |
46 import OPair | |
47 open OPair O | |
48 | |
49 open PFunc | |
50 | |
387 | 51 _f∩_ : (f g : PFunc (Lift n Nat) (Lift n Two) ) → PFunc (Lift n Nat) (Lift n Two) |
52 f f∩ g = record { dom = λ x → (dom f x ) ∧ (dom g x ) ∧ ((fr : dom f x ) → (gr : dom g x ) → pmap f x fr ≡ pmap g x gr) | |
53 ; pmap = λ x p → pmap f x (proj1 p) ; meq = meq f } | |
381 | 54 |
387 | 55 _↑_ : (Nat → Two) → Nat → PFunc (Lift n Nat) (Lift n Two) |
56 _↑_ f i = record { dom = λ x → Lift n (lower x ≤ i) ; pmap = λ x _ → lift (f (lower x)) ; meq = λ {x} {p} {q} → refl } | |
381 | 57 |
387 | 58 record _f⊆_ (f g : PFunc (Lift n Nat) (Lift n Two) ) : Set (suc n) where |
59 field | |
60 extend : {x : Nat} → (fr : dom f (lift x) ) → dom g (lift x ) | |
61 feq : {x : Nat} → {fr : dom f (lift x) } → pmap f (lift x) fr ≡ pmap g (lift x) (extend fr) | |
381 | 62 |
387 | 63 open _f⊆_ |
64 open import Data.Nat.Properties | |
375
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65 |
363 | 66 ODSuc : (y : HOD) → infinite ∋ y → HOD |
67 ODSuc y lt = Union (y , (y , y)) | |
68 | |
366 | 69 data Hω2 : (i : Nat) ( x : Ordinal ) → Set n where |
70 hφ : Hω2 0 o∅ | |
71 h0 : {i : Nat} {x : Ordinal } → Hω2 i x → | |
72 Hω2 (Suc i) (od→ord (Union ((< nat→ω i , nat→ω 0 >) , ord→od x ))) | |
73 h1 : {i : Nat} {x : Ordinal } → Hω2 i x → | |
74 Hω2 (Suc i) (od→ord (Union ((< nat→ω i , nat→ω 1 >) , ord→od x ))) | |
75 he : {i : Nat} {x : Ordinal } → Hω2 i x → | |
76 Hω2 (Suc i) x | |
77 | |
78 record Hω2r (x : Ordinal) : Set n where | |
79 field | |
80 count : Nat | |
81 hω2 : Hω2 count x | |
82 | |
83 open Hω2r | |
363 | 84 |
85 HODω2 : HOD | |
366 | 86 HODω2 = record { od = record { def = λ x → Hω2r x } ; odmax = next o∅ ; <odmax = odmax0 } where |
393 | 87 P : (i j : Nat) (x : Ordinal ) → HOD |
88 P i j x = ((nat→ω i , nat→ω i) , (nat→ω i , nat→ω j)) , ord→od x | |
394 | 89 nat1 : (i : Nat) (x : Ordinal) → od→ord (nat→ω i) o< next x |
90 nat1 i x = next< nexto∅ ( <odmax infinite (ω∋nat→ω {i})) | |
393 | 91 lemma1 : (i j : Nat) (x : Ordinal ) → osuc (od→ord (P i j x)) o< next x |
394 | 92 lemma1 i j x = osuc<nx (pair-<xy (pair-<xy (pair-<xy (nat1 i x) (nat1 i x) ) (pair-<xy (nat1 i x) (nat1 j x) ) ) |
93 (subst (λ k → k o< next x) (sym diso) x<nx )) | |
393 | 94 lemma : (i j : Nat) (x : Ordinal ) → od→ord (Union (P i j x)) o< next x |
95 lemma i j x = next< (lemma1 i j x ) ho< | |
366 | 96 odmax0 : {y : Ordinal} → Hω2r y → y o< next o∅ |
97 odmax0 {y} r with hω2 r | |
98 ... | hφ = x<nx | |
393 | 99 ... | h0 {i} {x} t = next< (odmax0 record { count = i ; hω2 = t }) (lemma i 0 x) |
100 ... | h1 {i} {x} t = next< (odmax0 record { count = i ; hω2 = t }) (lemma i 1 x) | |
366 | 101 ... | he {i} {x} t = next< (odmax0 record { count = i ; hω2 = t }) x<nx |
363 | 102 |
387 | 103 3→Hω2 : List (Maybe Two) → HOD |
385 | 104 3→Hω2 t = list→hod t 0 where |
387 | 105 list→hod : List (Maybe Two) → Nat → HOD |
385 | 106 list→hod [] _ = od∅ |
387 | 107 list→hod (just i0 ∷ t) i = Union (< nat→ω i , nat→ω 0 > , ( list→hod t (Suc i) )) |
108 list→hod (just i1 ∷ t) i = Union (< nat→ω i , nat→ω 1 > , ( list→hod t (Suc i) )) | |
109 list→hod (nothing ∷ t) i = list→hod t (Suc i ) | |
385 | 110 |
387 | 111 Hω2→3 : (x : HOD) → HODω2 ∋ x → List (Maybe Two) |
385 | 112 Hω2→3 x = lemma where |
387 | 113 lemma : { y : Ordinal } → Hω2r y → List (Maybe Two) |
385 | 114 lemma record { count = 0 ; hω2 = hφ } = [] |
387 | 115 lemma record { count = (Suc i) ; hω2 = (h0 hω3) } = just i0 ∷ lemma record { count = i ; hω2 = hω3 } |
116 lemma record { count = (Suc i) ; hω2 = (h1 hω3) } = just i1 ∷ lemma record { count = i ; hω2 = hω3 } | |
117 lemma record { count = (Suc i) ; hω2 = (he hω3) } = nothing ∷ lemma record { count = i ; hω2 = hω3 } | |
385 | 118 |
370 | 119 ω→2 : HOD |
394 | 120 ω→2 = Power infinite |
368 | 121 |
385 | 122 ω→2f : (x : HOD) → ω→2 ∋ x → Nat → Two |
394 | 123 ω→2f x lt n with ODC.∋-p O x (nat→ω n) |
124 ω→2f x lt n | yes p = i1 | |
125 ω→2f x lt n | no ¬p = i0 | |
385 | 126 |
395 | 127 fω→2-sel : ( f : Nat → Two ) (x : HOD) → Set n |
128 fω→2-sel f x = (infinite ∋ x) ∧ ( (lt : odef infinite (od→ord x) ) → f (ω→nat x lt) ≡ i1 ) | |
129 | |
130 fω→2 : (Nat → Two) → HOD | |
131 fω→2 f = Select infinite (fω→2-sel f) | |
132 | |
133 open _==_ | |
134 | |
135 postulate f-extensionality : { n m : Level} → Relation.Binary.PropositionalEquality.Extensionality n m | |
136 | |
396 | 137 ω2∋f : (f : Nat → Two) → ω→2 ∋ fω→2 f |
138 ω2∋f f = power← infinite (fω→2 f) (λ {x} lt → proj1 ((proj2 (selection {fω→2-sel f} {infinite} )) lt)) | |
139 | |
140 ω→2f≡i0 : (X i : HOD) → (iω : infinite ∋ i) → (lt : ω→2 ∋ X ) → ω→2f X lt (ω→nat i iω) ≡ i1 → X ∋ i | |
141 ω→2f≡i0 X i iω lt eq with ODC.∋-p O X (nat→ω (ω→nat i iω)) | |
410 | 142 ω→2f≡i0 X i iω lt eq | yes p = subst (λ k → X ∋ k ) (nat→ω-iso iω) p |
396 | 143 |
395 | 144 ω→2f-iso : (X : HOD) → ( lt : ω→2 ∋ X ) → fω→2 ( ω→2f X lt ) =h= X |
145 ω→2f-iso X lt = record { | |
146 eq→ = eq1 | |
147 ; eq← = eq2 | |
148 } where | |
149 eq1 : {x : Ordinal} → odef (fω→2 (ω→2f X lt)) x → odef X x | |
396 | 150 eq1 {x} fx = {!!} where |
151 x-nat : odef infinite x | |
152 x-nat = subst (λ k → odef infinite k) diso ( ODC.double-neg-eilm O | |
153 (power→ infinite _ (ω2∋f (ω→2f X lt)) (d→∋ (fω→2 (ω→2f X lt)) fx ))) | |
154 i : Nat | |
155 i = ω→nat (ord→od x) (d→∋ infinite x-nat) | |
156 is-i1 : ω→2f X lt i ≡ i1 | |
157 is-i1 = {!!} | |
395 | 158 eq2 : {x : Ordinal} → odef X x → odef (fω→2 (ω→2f X lt)) x |
396 | 159 eq2 {x} Xx = {!!} where |
160 x-nat : odef infinite x | |
161 x-nat = {!!} | |
395 | 162 |
396 | 163 fω→2-iso : (f : Nat → Two) → ω→2f ( fω→2 f ) (ω2∋f f) ≡ f |
395 | 164 fω→2-iso f = f-extensionality (λ x → eq1 x ) where |
396 | 165 eq1 : (x : Nat) → ω→2f (fω→2 f) (ω2∋f f) x ≡ f x |
395 | 166 eq1 x = {!!} |
167 | |
168 | |
385 | 169 ↑n : (f n : HOD) → ((ω→2 ∋ f ) ∧ (infinite ∋ n)) → HOD |
170 ↑n f n lt = 3→Hω2 ( ω→2f f (proj1 lt) 3↑ (ω→nat n (proj2 lt) )) | |
171 | |
386 | 172 record CountableOrdinal : Set (suc (suc n)) where |
173 field | |
174 ctl→ : Nat → Ordinal | |
175 ctl← : Ordinal → Nat | |
176 ctl-iso→ : { x : Ordinal } → ctl→ (ctl← x ) ≡ x | |
177 ctl-iso← : { x : Nat } → ctl← (ctl→ x ) ≡ x | |
388 | 178 |
179 record CountableHOD : Set (suc (suc n)) where | |
180 field | |
390 | 181 mhod : HOD |
182 mtl→ : Nat → Ordinal | |
183 mtl→∈P : (i : Nat) → odef mhod (mtl→ i) | |
184 mtl← : (x : Ordinal) → odef mhod x → Nat | |
185 mtl-iso→ : { x : Ordinal } → (lt : odef mhod x ) → mtl→ (mtl← x lt ) ≡ x | |
186 mtl-iso← : { x : Nat } → mtl← (mtl→ x ) (mtl→∈P x) ≡ x | |
388 | 187 |
386 | 188 |
387 | 189 open CountableOrdinal |
388 | 190 open CountableHOD |
387 | 191 |
391
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192 PGHOD : (i : Nat) → (C : CountableOrdinal) → (P : HOD) → (p : Ordinal) → HOD |
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193 PGHOD i C P p = record { od = record { def = λ x → odef P x ∧ odef (ord→od (ctl→ C i)) x ∧ ( (y : Ordinal ) → odef (ord→od p) y → odef (ord→od x) y ) } |
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194 ; odmax = odmax P ; <odmax = λ {y} lt → <odmax P (proj1 lt) } |
388 | 195 |
391
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196 next-p : (C : CountableOrdinal) (P : HOD ) (i : Nat) → (p : Ordinal) → Ordinal |
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197 next-p C P i p with ODC.decp O ( PGHOD i C P p =h= od∅ ) |
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198 next-p C P i p | yes y = p |
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199 next-p C P i p | no not = od→ord (ODC.minimal O (PGHOD i C P p ) not) |
387 | 200 |
391
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201 find-p : (C : CountableOrdinal) (P : HOD ) (i : Nat) → (x : Ordinal) → Ordinal |
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202 find-p C P Zero x = x |
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203 find-p C P (Suc i) x = find-p C P i ( next-p C P i x ) |
388 | 204 |
391
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205 record PDN (C : CountableOrdinal) (P : HOD ) (x : Ordinal) : Set n where |
388 | 206 field |
391
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207 gr : Nat |
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208 pn<gr : (y : Ordinal) → odef (ord→od x) y → odef (ord→od (find-p C P gr o∅)) y |
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209 px∈ω : odef P x |
388 | 210 |
211 open PDN | |
386 | 212 |
391
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213 PDHOD : (C : CountableOrdinal) → (P : HOD ) → HOD |
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214 PDHOD C P = record { od = record { def = λ x → PDN C P x } |
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215 ; odmax = odmax (Power P) ; <odmax = {!!} } where |
388 | 216 |
217 -- | |
218 -- p 0 ≡ ∅ | |
219 -- p (suc n) = if ∃ q ∈ ord→od ( ctl→ n ) ∧ p n ⊆ q → q | |
220 --- else p n | |
386 | 221 |
391
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222 P-GenericFilter : (C : CountableOrdinal) → (P : HOD ) → GenericFilter P |
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223 P-GenericFilter C P = record { |
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224 genf = record { filter = PDHOD C P ; f⊆PL = {!!} ; filter1 = {!!} ; filter2 = {!!} } |
386 | 225 ; generic = λ D → {!!} |
226 } | |
392 | 227 |
228 open GenericFilter | |
229 open Filter | |
230 | |
231 record Incompatible (P : HOD ) : Set (suc (suc n)) where | |
232 field | |
233 except : HOD → ( HOD ∧ HOD ) | |
234 incompatible : { p : HOD } → P ∋ p → P ∋ proj1 (except p ) → P ∋ proj2 (except p ) | |
235 → ( p ⊆ proj1 (except p) ) ∧ ( p ⊆ proj2 (except p) ) | |
236 → ∀ ( r : HOD ) → P ∋ r → ¬ (( proj1 (except p) ⊆ r ) ∧ ( proj2 (except p) ⊆ r )) | |
237 | |
238 lemma725 : (M : CountableHOD ) (C : CountableOrdinal) (P : HOD ) → mhod M ∋ P | |
239 → Incompatible P → ¬ ( mhod M ∋ filter ( genf ( P-GenericFilter C P ))) | |
240 lemma725 = {!!} | |
241 | |
242 lemma725-1 : Incompatible HODω2 | |
243 lemma725-1 = {!!} | |
244 | |
245 lemma726 : (C : CountableOrdinal) (P : HOD ) | |
246 → Union ( filter ( genf ( P-GenericFilter C HODω2 ))) =h= ω→2 | |
247 lemma726 = {!!} | |
248 | |
249 -- | |
250 -- val x G = { val y G | ∃ p → G ∋ p → x ∋ < y , p > } | |
251 -- | |
252 | |
253 | |
254 | |
255 |