Step
*
2
2
of Lemma
tuple-type-append-equipollent
1. u : Type
2. v : Type List
3. ∀L2:Type List. tuple-type(v) × tuple-type(L2) ~ tuple-type(v @ L2)
4. L2 : Type List
5. v = [] ∈ (Type List)
6. ¬((v @ L2) = [] ∈ (Type List))
⊢ u × tuple-type(L2) ~ u × tuple-type(v) × tuple-type(L2)
BY
{ (HypSubst' (-2) 0 THEN Reduce 0) }
1
1. u : Type
2. v : Type List
3. ∀L2:Type List. tuple-type(v) × tuple-type(L2) ~ tuple-type(v @ L2)
4. L2 : Type List
5. v = [] ∈ (Type List)
6. ¬((v @ L2) = [] ∈ (Type List))
⊢ u × tuple-type(L2) ~ u × Unit × tuple-type(L2)
Latex:
Latex:
1. u : Type
2. v : Type List
3. \mforall{}L2:Type List. tuple-type(v) \mtimes{} tuple-type(L2) \msim{} tuple-type(v @ L2)
4. L2 : Type List
5. v = []
6. \mneg{}((v @ L2) = [])
\mvdash{} u \mtimes{} tuple-type(L2) \msim{} u \mtimes{} tuple-type(v) \mtimes{} tuple-type(L2)
By
Latex:
(HypSubst' (-2) 0 THEN Reduce 0)
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