Proof of Nuprl Lemma : lg-edge-remove

Step * 2 2 3 of Lemma lg-edge-remove

1. [T] : Type
2. g : LabeledGraph(T)@i
3. i : ℕlg-size(g)@i
4. a : ℕlg-size(g) - 1@i
5. b : ℕlg-size(g) - 1@i
6. Z : T × ℕlg-size(g) List × (ℕlg-size(g) List)@i
7. g[if b <z i then b else b + 1 fi ] = Z ∈ (T × ℕlg-size(g) List × (ℕlg-size(g) List))@i
⊢ (a ∈ fst(snd(let lbl,in,out = Z in
   <lbl
   , map(λx.if x ≤z i then x else x - 1 fi ;filter(λx.(¬_b(x =_z i));in))
   , map(λx.if x ≤z i then x else x - 1 fi ;filter(λx.(¬_b(x =_z i));out))>)))
⇐⇒ (if a <z i then a else a + 1 fi  ∈ fst(snd(Z)))
BY
{ (RepeatFor 2 (D (-2)) THEN Reduce 0)⋅ }

1
1. [T] : Type
2. g : LabeledGraph(T)@i
3. i : ℕlg-size(g)@i
4. a : ℕlg-size(g) - 1@i
5. b : ℕlg-size(g) - 1@i
6. Z1 : T@i
7. Z3 : ℕlg-size(g) List@i
8. Z4 : ℕlg-size(g) List@i

9. g[if b <z i then b else b + 1 fi ] = <Z1, Z3, Z4> ∈ (T × ℕlg-size(g) List × (ℕlg-size(g) List))@i

⊢ (a ∈ map(λx.if x ≤z i then x else x - 1 fi ;filter(λx.(¬_b(x =_z i));Z3))) ⇐⇒ (if a <z i then a else a + 1 fi ∈ Z3)

Latex:

Latex:
1. [T] : Type 2. g : LabeledGraph(T)@i 3. i : \mBbbN{}lg-size(g)@i 4. a : \mBbbN{}lg-size(g) - 1@i 5. b : \mBbbN{}lg-size(g) - 1@i 6. Z : T \mtimes{} \mBbbN{}lg-size(g) List \mtimes{} (\mBbbN{}lg-size(g) List)@i 7. g[if b <z i then b else b + 1 fi ] = Z@i \mvdash{} (a \mmember{} fst(snd(let lbl,in,out = Z in <lbl , map(\mlambda{}x.if x \mleq{}z i then x else x - 1 fi ;filter(\mlambda{}x.(\mneg{}\msubb{}(x =\msubz{} i));in)) , map(\mlambda{}x.if x \mleq{}z i then x else x - 1 fi ;filter(\mlambda{}x.(\mneg{}\msubb{}(x =\msubz{} i));out))>))) \mLeftarrow{}{}\mRightarrow{} (if a <z i then a else a + 1 fi \mmember{} fst(snd(Z))) By Latex: (RepeatFor 2 (D (-2)) THEN Reduce 0)\mcdot{} Home Index