Proof of Nuprl Lemma : rel-preserving-star-reachable

Step * 1 1 of Lemma rel-preserving-star-reachable

1. [T1] : Type
2. [T2] : Type
3. [i2] : T2
4. [R1] : T1 ⟶ T1 ⟶ Type
5. [R2] : T2 ⟶ T2 ⟶ Type
6. f : T2 ⟶ T1
7. ∀x,y:{s:T2| i2 (R2^*) s} .  ((x R2 y) ⇒ ((f x) (R1^*) (f y)))
8. n : ℕ
⊢ ∀x,y:{s:T2| i2 (R2^*) s} .  ((x R2^n y) ⇒ ((f x) (R1^*) (f y)))
BY
{ (NatInd (-1) THEN Auto THEN RecUnfold `rel_exp` (-1) THEN Reduce (-1) THEN Auto) }

1
1. [T1] : Type
2. [T2] : Type
3. [i2] : T2
4. [R1] : T1 ⟶ T1 ⟶ Type
5. [R2] : T2 ⟶ T2 ⟶ Type
6. f : T2 ⟶ T1
7. ∀x,y:{s:T2| i2 (R2^*) s} .  ((x R2 y) ⇒ ((f x) (R1^*) (f y)))
8. x : {s:T2| i2 (R2^*) s}
9. y : {s:T2| i2 (R2^*) s}
10. x = y ∈ T2
⊢ (f x) (R1^*) (f y)

2
1. [T1] : Type
2. [T2] : Type
3. [i2] : T2
4. [R1] : T1 ⟶ T1 ⟶ Type
5. [R2] : T2 ⟶ T2 ⟶ Type
6. f : T2 ⟶ T1
7. ∀x,y:{s:T2| i2 (R2^*) s} .  ((x R2 y) ⇒ ((f x) (R1^*) (f y)))
8. n : ℤ
9. [%2] : 0 < n
10. ∀x,y:{s:T2| i2 (R2^*) s} .  ((x R2^n - 1 y) ⇒ ((f x) (R1^*) (f y)))
11. x : {s:T2| i2 (R2^*) s}
12. y : {s:T2| i2 (R2^*) s}

13. x if (n =_z 0) then λx,y. (x = y ∈ T2) else λx,y. ∃z:T2. ((x R2 z) ∧ (z R2^n - 1 y)) fi  y

⊢ (f x) (R1^*) (f y)

Latex:

Latex:
1. [T1] : Type 2. [T2] : Type 3. [i2] : T2 4. [R1] : T1 {}\mrightarrow{} T1 {}\mrightarrow{} Type 5. [R2] : T2 {}\mrightarrow{} T2 {}\mrightarrow{} Type 6. f : T2 {}\mrightarrow{} T1 7. \mforall{}x,y:\{s:T2| i2 rel\_star(T2; R2) s\} . ((x R2 y) {}\mRightarrow{} ((f x) rel\_star(T1; R1) (f y))) 8. n : \mBbbN{} \mvdash{} \mforall{}x,y:\{s:T2| i2 rel\_star(T2; R2) s\} . ((x rel\_exp(T2; R2; n) y) {}\mRightarrow{} ((f x) rel\_star(T1; R1) (f y))) By Latex: (NatInd (-1) THEN Auto THEN RecUnfold `rel\_exp` (-1) THEN Reduce (-1) THEN Auto) Home Index