Step
*
1
2
2
1
2
of Lemma
accum-class-programmable
1. Info : Type
2. A : Type
3. B : Type
4. X : EClass(A)
5. base : A ─→ B
6. f : B ─→ A ─→ B
7. Y : EClass(B)@i'
8. ∀es:EO+(Info). ∀e:E.
((Y es e) = if e ∈b X then if e ∈b Prior(Y) then {f[Prior(Y)(e);X(e)]} else {base[X(e)]} fi else {} fi ∈ bag(B))
9. Singlevalued(Y)
10. ∀es:EO+(Info). ∀e:E. (↑e ∈b X ⇐⇒ ↑e ∈b Y)
⊢ accum-class(b,a.f[b;a];a.base[a];X) = Y ∈ EClass(B)
BY
{ (BLemma `es-interface-extensionality` THENA Auto)⋅ }
1
1. Info : Type
2. A : Type
3. B : Type
4. X : EClass(A)
5. base : A ─→ B
6. f : B ─→ A ─→ B
7. Y : EClass(B)@i'
8. ∀es:EO+(Info). ∀e:E.
((Y es e) = if e ∈b X then if e ∈b Prior(Y) then {f[Prior(Y)(e);X(e)]} else {base[X(e)]} fi else {} fi ∈ bag(B))
9. Singlevalued(Y)
10. ∀es:EO+(Info). ∀e:E. (↑e ∈b X ⇐⇒ ↑e ∈b Y)
⊢ Singlevalued(Y)
2
1. Info : Type
2. A : Type
3. B : Type
4. X : EClass(A)
5. base : A ─→ B
6. f : B ─→ A ─→ B
7. Y : EClass(B)@i'
8. ∀es:EO+(Info). ∀e:E.
((Y es e) = if e ∈b X then if e ∈b Prior(Y) then {f[Prior(Y)(e);X(e)]} else {base[X(e)]} fi else {} fi ∈ bag(B))
9. Singlevalued(Y)
10. ∀es:EO+(Info). ∀e:E. (↑e ∈b X ⇐⇒ ↑e ∈b Y)
⊢ Singlevalued(accum-class(b,a.f[b;a];a.base[a];X))
3
1. Info : Type
2. A : Type
3. B : Type
4. X : EClass(A)
5. base : A ─→ B
6. f : B ─→ A ─→ B
7. Y : EClass(B)@i'
8. ∀es:EO+(Info). ∀e:E.
((Y es e) = if e ∈b X then if e ∈b Prior(Y) then {f[Prior(Y)(e);X(e)]} else {base[X(e)]} fi else {} fi ∈ bag(B))
9. Singlevalued(Y)
10. ∀es:EO+(Info). ∀e:E. (↑e ∈b X ⇐⇒ ↑e ∈b Y)
⊢ ∀es:EO+(Info). ∀e:E. (↑e ∈b accum-class(b,a.f[b;a];a.base[a];X) ⇐⇒ ↑e ∈b Y)
4
1. Info : Type
2. A : Type
3. B : Type
4. X : EClass(A)
5. base : A ─→ B
6. f : B ─→ A ─→ B
7. Y : EClass(B)@i'
8. ∀es:EO+(Info). ∀e:E.
((Y es e) = if e ∈b X then if e ∈b Prior(Y) then {f[Prior(Y)(e);X(e)]} else {base[X(e)]} fi else {} fi ∈ bag(B))
9. Singlevalued(Y)
10. ∀es:EO+(Info). ∀e:E. (↑e ∈b X ⇐⇒ ↑e ∈b Y)
⊢ ∀es:EO+(Info). ∀e:E.
((↑e ∈b accum-class(b,a.f[b;a];a.base[a];X)) ⇒ (↑e ∈b Y) ⇒ (accum-class(b,a.f[b;a];a.base[a];X)(e) = Y(e) ∈ B))
Latex:
Latex:
1. Info : Type
2. A : Type
3. B : Type
4. X : EClass(A)
5. base : A {}\mrightarrow{} B
6. f : B {}\mrightarrow{} A {}\mrightarrow{} B
7. Y : EClass(B)@i'
8. \mforall{}es:EO+(Info). \mforall{}e:E.
((Y es e)
= if e \mmember{}\msubb{} X then if e \mmember{}\msubb{} Prior(Y) then \{f[Prior(Y)(e);X(e)]\} else \{base[X(e)]\} fi else \{\} fi )
9. Singlevalued(Y)
10. \mforall{}es:EO+(Info). \mforall{}e:E. (\muparrow{}e \mmember{}\msubb{} X \mLeftarrow{}{}\mRightarrow{} \muparrow{}e \mmember{}\msubb{} Y)
\mvdash{} accum-class(b,a.f[b;a];a.base[a];X) = Y
By
Latex:
(BLemma `es-interface-extensionality` THENA Auto)\mcdot{}
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