Mercurial > hg > Members > kono > Proof > ZF-in-agda
annotate filter.agda @ 324:fbabb20f222e
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| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Sat, 04 Jul 2020 18:18:17 +0900 |
| parents | b012a915bbb5 |
| children | 5544f4921a44 |
| rev | line source |
|---|---|
| 190 | 1 open import Level |
| 236 | 2 open import Ordinals |
| 3 module filter {n : Level } (O : Ordinals {n}) where | |
| 4 | |
| 190 | 5 open import zf |
| 236 | 6 open import logic |
| 7 import OD | |
| 193 | 8 |
| 190 | 9 open import Relation.Nullary |
| 10 open import Relation.Binary | |
| 11 open import Data.Empty | |
| 12 open import Relation.Binary | |
| 13 open import Relation.Binary.Core | |
| 14 open import Relation.Binary.PropositionalEquality | |
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15 open import Data.Nat renaming ( zero to Zero ; suc to Suc ; ℕ to Nat ; _⊔_ to _n⊔_ ) |
| 293 | 16 import BAlgbra |
| 17 | |
| 18 open BAlgbra O | |
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19 |
| 236 | 20 open inOrdinal O |
| 21 open OD O | |
| 22 open OD.OD | |
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23 open ODAxiom odAxiom |
| 190 | 24 |
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25 import ODC |
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26 |
| 236 | 27 open _∧_ |
| 28 open _∨_ | |
| 29 open Bool | |
| 30 | |
| 295 | 31 -- Kunen p.76 and p.53, we use ⊆ |
| 265 | 32 record Filter ( L : OD ) : Set (suc n) where |
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33 field |
| 290 | 34 filter : OD |
| 35 f⊆PL : filter ⊆ Power L | |
| 271 | 36 filter1 : { p q : OD } → q ⊆ L → filter ∋ p → p ⊆ q → filter ∋ q |
| 270 | 37 filter2 : { p q : OD } → filter ∋ p → filter ∋ q → filter ∋ (p ∩ q) |
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38 |
| 292 | 39 open Filter |
| 40 | |
| 295 | 41 record prime-filter { L : OD } (P : Filter L) : Set (suc (suc n)) where |
| 42 field | |
| 43 proper : ¬ (filter P ∋ od∅) | |
| 44 prime : {p q : OD } → filter P ∋ (p ∪ q) → ( filter P ∋ p ) ∨ ( filter P ∋ q ) | |
| 292 | 45 |
| 295 | 46 record ultra-filter { L : OD } (P : Filter L) : Set (suc (suc n)) where |
| 47 field | |
| 48 proper : ¬ (filter P ∋ od∅) | |
| 49 ultra : {p : OD } → p ⊆ L → ( filter P ∋ p ) ∨ ( filter P ∋ ( L \ p) ) | |
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50 |
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51 open _⊆_ |
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52 |
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53 trans-⊆ : { A B C : OD} → A ⊆ B → B ⊆ C → A ⊆ C |
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54 trans-⊆ A⊆B B⊆C = record { incl = λ x → incl B⊆C (incl A⊆B x) } |
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55 |
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56 power→⊆ : ( A t : OD) → Power A ∋ t → t ⊆ A |
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57 power→⊆ A t PA∋t = record { incl = λ {x} t∋x → ODC.double-neg-eilm O (t1 t∋x) } where |
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58 t1 : {x : OD } → t ∋ x → ¬ ¬ (A ∋ x) |
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59 t1 = zf.IsZF.power→ isZF A t PA∋t |
| 292 | 60 |
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61 ∈-filter : {L p : OD} → (P : Filter L ) → filter P ∋ p → p ⊆ L |
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62 ∈-filter {L} {p} P lt = power→⊆ L p ( incl (f⊆PL P) lt ) |
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63 |
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64 ∪-lemma1 : {L p q : OD } → (p ∪ q) ⊆ L → p ⊆ L |
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65 ∪-lemma1 {L} {p} {q} lt = record { incl = λ {x} p∋x → incl lt (case1 p∋x) } |
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66 |
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67 ∪-lemma2 : {L p q : OD } → (p ∪ q) ⊆ L → q ⊆ L |
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68 ∪-lemma2 {L} {p} {q} lt = record { incl = λ {x} p∋x → incl lt (case2 p∋x) } |
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69 |
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70 q∩q⊆q : {p q : OD } → (q ∩ p) ⊆ q |
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71 q∩q⊆q = record { incl = λ lt → proj1 lt } |
| 265 | 72 |
| 295 | 73 ----- |
| 74 -- | |
| 75 -- ultra filter is prime | |
| 76 -- | |
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77 |
| 295 | 78 filter-lemma1 : {L : OD} → (P : Filter L) → ∀ {p q : OD } → ultra-filter P → prime-filter P |
| 79 filter-lemma1 {L} P u = record { | |
| 80 proper = ultra-filter.proper u | |
| 81 ; prime = lemma3 | |
| 82 } where | |
| 83 lemma3 : {p q : OD} → filter P ∋ (p ∪ q) → ( filter P ∋ p ) ∨ ( filter P ∋ q ) | |
| 84 lemma3 {p} {q} lt with ultra-filter.ultra u (∪-lemma1 (∈-filter P lt) ) | |
| 85 ... | case1 p∈P = case1 p∈P | |
| 86 ... | case2 ¬p∈P = case2 (filter1 P {q ∩ (L \ p)} (∪-lemma2 (∈-filter P lt)) lemma7 lemma8) where | |
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87 lemma5 : ((p ∪ q ) ∩ (L \ p)) == (q ∩ (L \ p)) |
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88 lemma5 = record { eq→ = λ {x} lt → record { proj1 = lemma4 x lt ; proj2 = proj2 lt } |
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89 ; eq← = λ {x} lt → record { proj1 = case2 (proj1 lt) ; proj2 = proj2 lt } |
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90 } where |
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91 lemma4 : (x : Ordinal ) → def ((p ∪ q) ∩ (L \ p)) x → def q x |
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92 lemma4 x lt with proj1 lt |
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93 lemma4 x lt | case1 px = ⊥-elim ( proj2 (proj2 lt) px ) |
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94 lemma4 x lt | case2 qx = qx |
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95 lemma6 : filter P ∋ ((p ∪ q ) ∩ (L \ p)) |
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96 lemma6 = filter2 P lt ¬p∈P |
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97 lemma7 : filter P ∋ (q ∩ (L \ p)) |
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98 lemma7 = subst (λ k → filter P ∋ k ) (==→o≡ lemma5 ) lemma6 |
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99 lemma8 : (q ∩ (L \ p)) ⊆ q |
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100 lemma8 = q∩q⊆q |
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101 |
| 295 | 102 ----- |
| 103 -- | |
| 104 -- if Filter contains L, prime filter is ultra | |
| 105 -- | |
| 106 | |
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107 filter-lemma2 : {L : OD} → (P : Filter L) → filter P ∋ L → prime-filter P → ultra-filter P |
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108 filter-lemma2 {L} P f∋L prime = record { |
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109 proper = prime-filter.proper prime |
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110 ; ultra = λ {p} p⊆L → prime-filter.prime prime (lemma p p⊆L) |
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111 } where |
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112 open _==_ |
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113 p+1-p=1 : {p : OD} → p ⊆ L → L == (p ∪ (L \ p)) |
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114 eq→ (p+1-p=1 {p} p⊆L) {x} lt with ODC.decp O (def p x) |
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115 eq→ (p+1-p=1 {p} p⊆L) {x} lt | yes p∋x = case1 p∋x |
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116 eq→ (p+1-p=1 {p} p⊆L) {x} lt | no ¬p = case2 (record { proj1 = lt ; proj2 = ¬p }) |
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117 eq← (p+1-p=1 {p} p⊆L) {x} ( case1 p∋x ) = subst (λ k → def L k ) diso (incl p⊆L ( subst (λ k → def p k) (sym diso) p∋x )) |
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118 eq← (p+1-p=1 {p} p⊆L) {x} ( case2 ¬p ) = proj1 ¬p |
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119 lemma : (p : OD) → p ⊆ L → filter P ∋ (p ∪ (L \ p)) |
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120 lemma p p⊆L = subst (λ k → filter P ∋ k ) (==→o≡ (p+1-p=1 p⊆L)) f∋L |
| 293 | 121 |
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122 record Dense (P : OD ) : Set (suc n) where |
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123 field |
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124 dense : OD |
| 271 | 125 incl : dense ⊆ P |
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126 dense-f : OD → OD |
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127 dense-d : { p : OD} → P ∋ p → dense ∋ dense-f p |
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128 dense-p : { p : OD} → P ∋ p → p ⊆ (dense-f p) |
| 266 | 129 |
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130 -- the set of finite partial functions from ω to 2 |
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131 -- |
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132 -- ph2 : Nat → Set → 2 |
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133 -- ph2 : Nat → Maybe 2 |
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134 -- |
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135 -- Hω2 : Filter (Power (Power infinite)) |
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136 |
| 293 | 137 record Ideal ( L : OD ) : Set (suc n) where |
| 138 field | |
| 139 ideal : OD | |
| 140 i⊆PL : ideal ⊆ Power L | |
| 141 ideal1 : { p q : OD } → q ⊆ L → ideal ∋ p → q ⊆ p → ideal ∋ q | |
| 142 ideal2 : { p q : OD } → ideal ∋ p → ideal ∋ q → ideal ∋ (p ∪ q) | |
| 143 | |
| 144 open Ideal | |
| 145 | |
| 146 proper-ideal : {L : OD} → (P : Ideal L ) → {p : OD} → Set n | |
| 147 proper-ideal {L} P {p} = ideal P ∋ od∅ | |
| 148 | |
| 149 prime-ideal : {L : OD} → Ideal L → ∀ {p q : OD } → Set n | |
| 150 prime-ideal {L} P {p} {q} = ideal P ∋ ( p ∩ q) → ( ideal P ∋ p ) ∨ ( ideal P ∋ q ) | |
| 151 |