Mercurial > hg > Members > kono > Proof > ZF-in-agda
changeset 1325:8b909deb840e
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| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Sun, 11 Jun 2023 19:57:52 +0900 |
| parents | 1eefc6600354 |
| children | 1fe857e51f49 |
| files | src/bijection.agda src/nat.agda |
| diffstat | 2 files changed, 45 insertions(+), 13 deletions(-) [+] |
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--- a/src/bijection.agda Sun Jun 11 18:49:13 2023 +0900 +++ b/src/bijection.agda Sun Jun 11 19:57:52 2023 +0900 @@ -600,7 +600,7 @@ ... | no nisA | no nisB = ca≤cb0 n data FL (n : ℕ ) : Set where - ca<n : (i : ℕ) → fun→ cn (g (f (fun← an i))) < n → FL n + ca<n : (i : ℕ) → fun→ cn (g (f (fun← an i))) < suc n → FL n _f<_ : {n : ℕ } (x : FL n ) (y : FL n) → Set _f<_ {n} (ca<n i i<n) (ca<n j j<n) = fun→ cn (g (f (fun← an i))) < fun→ cn (g (f (fun← an j))) @@ -610,20 +610,20 @@ f<-trans : {n : ℕ } { x y z : FL n } → x f< y → y f< z → x f< z f<-trans {n} {ca<n i x} {ca<n i₁ x₁} {ca<n i₂ x₂} x<y y<z = <-trans x<y y<z - FL-eq0 : {n i j : ℕ} → {x : fun→ cn (g (f (fun← an i))) < n } {y : fun→ cn (g (f (fun← an j))) < n} + FL-eq0 : {n i j : ℕ} → {x : fun→ cn (g (f (fun← an i))) < suc n } {y : fun→ cn (g (f (fun← an j))) < suc n} → ca<n i x ≡ ca<n j y → fun→ cn (g (f (fun← an i))) ≡ fun→ cn (g (f (fun← an j))) FL-eq0 {n} {i} {.i} {x} {.x} refl = refl -- open import Relation.Binary.HeterogeneousEquality as HE using (_≅_;refl) - FL-eq1 : {n i j : ℕ} → {x : fun→ cn (g (f (fun← an i))) < n } {y : fun→ cn (g (f (fun← an j))) < n} + FL-eq1 : {n i j : ℕ} → {x : fun→ cn (g (f (fun← an i))) < suc n } {y : fun→ cn (g (f (fun← an j))) < suc n} → fun→ cn (g (f (fun← an i))) ≡ fun→ cn (g (f (fun← an j))) → ca<n i x ≡ ca<n j y FL-eq1 {n} {i} {j} {x} {y} eq = lem00 i=j where i=j : i ≡ j i=j = bi-inject← an (InjectiveF.inject fi ( InjectiveF.inject gi (bi-inject→ cn eq) )) - lem00 : {x : fun→ cn (g (f (fun← an i))) < n } {y : fun→ cn (g (f (fun← an j))) < n} → i ≡ j → ca<n i x ≡ ca<n j y + lem00 : {x : fun→ cn (g (f (fun← an i))) < suc n } {y : fun→ cn (g (f (fun← an j))) < suc n} → i ≡ j → ca<n i x ≡ ca<n j y lem00 {x} {y} refl with <-irrelevant x y ... | refl = refl @@ -682,6 +682,28 @@ x∈FLins {suc n} x (cons a [] x₁) | tri> ¬a ¬b a<x = there ( here refl ) x∈FLins {suc n} x (cons a (cons a₁ xs x₂) x₁) | tri> ¬a ¬b a<x = there ( x∈FLins x (cons a₁ xs x₂) ) + FL0uniq : {a b : FL zero} → a ≡ b + FL0uniq {ca<n i x} {ca<n j y} = FL-eq1 (trans lem01 (sym lem02)) where + lem01 : fun→ cn (g (f (fun← an i))) ≡ 0 + lem01 with <-cmp (fun→ cn (g (f (fun← an i)))) 0 + ... | tri≈ ¬a b ¬c = b + ... | tri> ¬a ¬b c = ⊥-elim (nat-≤> c x ) + lem02 : fun→ cn (g (f (fun← an j))) ≡ 0 + lem02 with <-cmp (fun→ cn (g (f (fun← an j)))) 0 + ... | tri≈ ¬a b ¬c = b + ... | tri> ¬a ¬b c = ⊥-elim (nat-≤> c y ) + + insAny : {n : ℕ} → {x h : FL n } → (xs : FList n) → Any (x ≡_) xs → Any (x ≡_) (FLinsert h xs) + insAny {zero} {f1} {f2} (cons a L xr) (here eq) = here FL0uniq + insAny {zero} {f1} {f2} (cons a L xr) (there any) = insAny {zero} {f1} {f2} L any + insAny {suc n} {x} {h} (cons a L xr) any with FLcmp h a + ... | tri< x<a ¬b ¬c = there any + ... | tri≈ ¬a b ¬c = any + insAny {suc n} {a} {h} (cons a [] (Level.lift tt)) (here refl) | tri> ¬a ¬b c = here refl + insAny {suc n} {x} {h} (cons a (cons a₁ L x₁) xr) (here refl) | tri> ¬a ¬b c = here refl + insAny {suc n} {x} {h} (cons a (cons a₁ L x₁) xr) (there any) | tri> ¬a ¬b c = there (insAny (cons a₁ L x₁) any) + + record maxAC (n : ℕ) : Set where field ac : ℕ @@ -692,7 +714,7 @@ fla-max zero = fun→ cn (g (f (fun← an zero))) fla-max (suc n) = max (fun→ cn (g (f (fun← an (suc n))))) (fla-max n) - fla-max< : (i n : ℕ) → i < suc n → fun→ cn (g (f (fun← an i))) < fla-max n + fla-max< : (i n : ℕ) → i < suc n → fun→ cn (g (f (fun← an i))) < suc (fla-max n) fla-max< zero n i≤n = ? fla-max< (suc i) n i≤n = ? @@ -702,7 +724,7 @@ fl0 = ca<n zero (fla-max< zero n 0<s ) fla0 (suc i) n (s≤s lt) = FLinsert fl0 fl1 where fl0 : FL (fla-max n ) - fl0 = ca<n (suc i) (fla-max< (suc i) n ? ) + fl0 = ca<n (suc i) (fla-max< (suc i) n (<-transʳ lt a<sa) ) fl1 = fla0 i n (≤-trans refl-≤s (s≤s lt)) fla : (n : ℕ) → FList (fla-max n) fla n = fla0 n n a<sa @@ -713,18 +735,22 @@ flany : (i : ℕ) → (i<n : i < suc n ) → Any ( ca<n i (fla-max< i n i<n ) ≡_) flist flany : (n : ℕ) → FLany n - flany n = record { flist = fla0 n n a<sa ; flany = ? } where - flany0 : (i : ℕ) → (i<n : i < suc n ) → Any ( ca<n i (fla-max< i n i<n ) ≡_) (fla0 i n i<n) - flany0 zero i<n = fl1 where + flany n = record { flist = fla0 n n a<sa ; flany = λ j j<n → flany0 n a<sa j j<n (x<sy→x≤y j<n) } where + flany0 : (i : ℕ) → (i<n : i < suc n ) → (j : ℕ) → (j<n : j < suc n) → j ≤ i → Any ( ca<n j (fla-max< j n j<n ) ≡_) (fla0 i n i<n) + flany0 zero i<n zero j<n z≤n = fl1 where fl0 = ca<n zero (fla-max< zero n 0<s ) fl1 = x∈FLins fl0 [] - flany0 (suc i) (s≤s i<n) = fl3 where + flany0 (suc i) (s≤s i<n) j j<n j≤i with ≤-∨ j≤i + ... | case1 refl = fl3 where fl0 : FL (fla-max n ) - fl0 = ca<n (suc i) (fla-max< (suc i) n ? ) + fl0 = ca<n (suc i) (fla-max< (suc i) n (<-transʳ i<n a<sa) ) fl1 = fla0 i n (≤-trans refl-≤s (s≤s i<n)) fl3 = x∈FLins fl0 fl1 - fl4 : Any ( ca<n i (fla-max< i n (≤-trans refl-≤s (s≤s i<n)) ) ≡_) (fla0 i n (≤-trans refl-≤s (s≤s i<n))) - fl4 = flany0 i (≤-trans refl-≤s (s≤s i<n)) + ... | case2 (s≤s j<i) = insAny fl1 (flany0 i (≤-trans refl-≤s (s≤s i<n)) j j<n j<i) where + fl0 : FL (fla-max n ) + fl0 = ca<n (suc i) (fla-max< (suc i) n (<-transʳ i<n a<sa) ) + fl1 = fla0 i n (≤-trans refl-≤s (s≤s i<n)) + fl3 = x∈FLins fl0 fl1 lem02 : (n : ℕ) → maxAC n
--- a/src/nat.agda Sun Jun 11 18:49:13 2023 +0900 +++ b/src/nat.agda Sun Jun 11 19:57:52 2023 +0900 @@ -256,6 +256,12 @@ sx≤y→x≤y {zero} {suc y} (s≤s le) = z≤n sx≤y→x≤y {suc x} {suc y} (s≤s le) = s≤s (sx≤y→x≤y {x} {y} le) +x<sy→x≤y : {x y : ℕ } → x < suc y → x ≤ y +x<sy→x≤y {zero} {suc y} (s≤s le) = z≤n +x<sy→x≤y {suc x} {suc y} (s≤s le) = s≤s (x<sy→x≤y {x} {y} le) +x<sy→x≤y {zero} {zero} (s≤s z≤n) = ≤-refl + + open import Data.Product i-j=0→i=j : {i j : ℕ } → j ≤ i → i - j ≡ 0 → i ≡ j