Proof of Nuprl Lemma : bag-parts

Step * 1 2 2 2 1 of Lemma bag-parts_wf

1. T : Type
2. valueall-type(T)
3. eq : EqDecider(T)
4. n : ℕ
5. ∀n:ℕn. ∀bs:bag(T).  ((#(bs) ≤ n) ⇒ (bag-parts(eq;bs) ∈ bag(bag(T) List⁺)))
6. bs : bag(T)@i
7. #(bs) ≤ n
8. BB : bag({p:bag(T) × bag(T)| ((fst(p)) + (snd(p))) = bs ∈ bag(T)} )@i
9. p1 : bag(T)
10. p2 : bag(T)
11. (p1 + p2) = bs ∈ bag(T)
12. (#(p1) + #(p2)) = #(bs) ∈ ℤ
⊢ if bag-null(p1) then {}
  if bag-null(p2) then {[p1]}
  else let parts ⟵ bag-parts(eq;p2)
       in bag-map(λL.[p1 / L];parts)
  fi  ∈ bag(bag(T) List⁺)
BY
{ ((Decide ⌜↑bag-null(p1)⌝⋅ THENA Auto) THEN (RW assert_pushdownC (-1) THENA Auto)) }

1
1. T : Type
2. valueall-type(T)
3. eq : EqDecider(T)
4. n : ℕ
5. ∀n:ℕn. ∀bs:bag(T).  ((#(bs) ≤ n) ⇒ (bag-parts(eq;bs) ∈ bag(bag(T) List⁺)))
6. bs : bag(T)@i
7. #(bs) ≤ n
8. BB : bag({p:bag(T) × bag(T)| ((fst(p)) + (snd(p))) = bs ∈ bag(T)} )@i
9. p1 : bag(T)
10. p2 : bag(T)
11. (p1 + p2) = bs ∈ bag(T)
12. (#(p1) + #(p2)) = #(bs) ∈ ℤ
13. p1 = {} ∈ bag(T)
⊢ if bag-null(p1) then {}
  if bag-null(p2) then {[p1]}
  else let parts ⟵ bag-parts(eq;p2)
       in bag-map(λL.[p1 / L];parts)
  fi  ∈ bag(bag(T) List⁺)

2
1. T : Type
2. valueall-type(T)
3. eq : EqDecider(T)
4. n : ℕ
5. ∀n:ℕn. ∀bs:bag(T).  ((#(bs) ≤ n) ⇒ (bag-parts(eq;bs) ∈ bag(bag(T) List⁺)))
6. bs : bag(T)@i
7. #(bs) ≤ n
8. BB : bag({p:bag(T) × bag(T)| ((fst(p)) + (snd(p))) = bs ∈ bag(T)} )@i
9. p1 : bag(T)
10. p2 : bag(T)
11. (p1 + p2) = bs ∈ bag(T)
12. (#(p1) + #(p2)) = #(bs) ∈ ℤ
13. ¬(p1 = {} ∈ bag(T))
⊢ if bag-null(p1) then {}
  if bag-null(p2) then {[p1]}
  else let parts ⟵ bag-parts(eq;p2)
       in bag-map(λL.[p1 / L];parts)
  fi  ∈ bag(bag(T) List⁺)

Latex:

Latex:
1. T : Type 2. valueall-type(T) 3. eq : EqDecider(T) 4. n : \mBbbN{} 5. \mforall{}n:\mBbbN{}n. \mforall{}bs:bag(T). ((\#(bs) \mleq{} n) {}\mRightarrow{} (bag-parts(eq;bs) \mmember{} bag(bag(T) List\msupplus{}))) 6. bs : bag(T)@i 7. \#(bs) \mleq{} n 8. BB : bag(\{p:bag(T) \mtimes{} bag(T)| ((fst(p)) + (snd(p))) = bs\} )@i 9. p1 : bag(T) 10. p2 : bag(T) 11. (p1 + p2) = bs 12. (\#(p1) + \#(p2)) = \#(bs) \mvdash{} if bag-null(p1) then \{\} if bag-null(p2) then \{[p1]\} else let parts \mleftarrow{}{} bag-parts(eq;p2) in bag-map(\mlambda{}L.[p1 / L];parts) fi \mmember{} bag(bag(T) List\msupplus{}) By Latex: ((Decide \mkleeneopen{}\muparrow{}bag-null(p1)\mkleeneclose{}\mcdot{} THENA Auto) THEN (RW assert\_pushdownC (-1) THENA Auto)) Home Index