Proof of Nuprl Lemma : bag-summation-product

Step * 2 2 of Lemma bag-summation-product

1. r : Rng
2. Assoc(|r|;+r)
3. Comm(|r|;+r)
4. A : Type
5. B : Type
6. f : A ⟶ |r|
7. c : bag(B)
8. g : B ⟶ |r|
9. u : A
10. v : A List
11. (Σ(x∈v). f[x] * Σ(y∈c). g[y]) = Σ(p∈v × c). f[fst(p)] * g[snd(p)] ∈ |r|
⊢ (Σ(x∈{u} + v). f[x] * Σ(y∈c). g[y]) = Σ(p∈{u} + v × c). f[fst(p)] * g[snd(p)] ∈ |r|
BY
{ ((Assert IsMonoid(|r|;+r;0) BY (DVar `r' THEN Auto)) THEN Assert ⌜Σ(x∈v). f[x] ∈ |r|⌝⋅) }

1
.....assertion.....
1. r : Rng
2. Assoc(|r|;+r)
3. Comm(|r|;+r)
4. A : Type
5. B : Type
6. f : A ⟶ |r|
7. c : bag(B)
8. g : B ⟶ |r|
9. u : A
10. v : A List
11. (Σ(x∈v). f[x] * Σ(y∈c). g[y]) = Σ(p∈v × c). f[fst(p)] * g[snd(p)] ∈ |r|
12. IsMonoid(|r|;+r;0)
⊢ Σ(x∈v). f[x] ∈ |r|

2
1. r : Rng
2. Assoc(|r|;+r)
3. Comm(|r|;+r)
4. A : Type
5. B : Type
6. f : A ⟶ |r|
7. c : bag(B)
8. g : B ⟶ |r|
9. u : A
10. v : A List
11. (Σ(x∈v). f[x] * Σ(y∈c). g[y]) = Σ(p∈v × c). f[fst(p)] * g[snd(p)] ∈ |r|
12. IsMonoid(|r|;+r;0)
13. Σ(x∈v). f[x] ∈ |r|
⊢ (Σ(x∈{u} + v). f[x] * Σ(y∈c). g[y]) = Σ(p∈{u} + v × c). f[fst(p)] * g[snd(p)] ∈ |r|

Latex:

Latex:
1. r : Rng 2. Assoc(|r|;+r) 3. Comm(|r|;+r) 4. A : Type 5. B : Type 6. f : A {}\mrightarrow{} |r| 7. c : bag(B) 8. g : B {}\mrightarrow{} |r| 9. u : A 10. v : A List 11. (\mSigma{}(x\mmember{}v). f[x] * \mSigma{}(y\mmember{}c). g[y]) = \mSigma{}(p\mmember{}v \mtimes{} c). f[fst(p)] * g[snd(p)] \mvdash{} (\mSigma{}(x\mmember{}\{u\} + v). f[x] * \mSigma{}(y\mmember{}c). g[y]) = \mSigma{}(p\mmember{}\{u\} + v \mtimes{} c). f[fst(p)] * g[snd(p)] By Latex: ((Assert IsMonoid(|r|;+r;0) BY (DVar `r' THEN Auto)) THEN Assert \mkleeneopen{}\mSigma{}(x\mmember{}v). f[x] \mmember{} |r|\mkleeneclose{}\mcdot{}) Home Index