Step
*
of Lemma
hdf-compose2-transformation1
∀[L1,L2,init,S:Base]. ∀[m1,m2:ℕ+].
(fix((λmk-hdf.(inl (λa.simple-cbva-seq(L1[a];λout.<mk-hdf, out>;m1)))))
o (fix((λmk-hdf,s. (inl (λa.simple-cbva-seq(L2[a];λout.<mk-hdf S[s], out>;m2))))) init)
~ fix((λmk-hdf,s. (inl (λa.simple-cbva-seq(λn.if n <z m1 then L1[a] n
if n <z m1 + m2 then mk_lambdas(L2[a] (n - m1);m1)
else mk_lambdas(λfs.mk_lambdas(λbs.⋃f∈fs.⋃b∈bs.f b;m2 - 1);m1 - 1)
fi ;λout.<mk-hdf S[s], out>;(m1 + m2) + 1)))))
init)
BY
{ (Auto
THEN RepUR ``hdf-compose2 mk-hdf ifthenelse hdf-halted hdf-halt hdf-run hdf-ap bor isr bfalse btrue`` 0
THEN LiftAll 0
THEN Reduce 0
THEN SqequalInduction
THEN (UnivCD THENA Auto)
THEN UnrollLoopsOnceExcept [`simple-cbva-seq`;`mk_lambdas`;`bag-combine`;`it`]
THEN RepeatFor 2 ((RWO "simple-cbva-seq-spread" 0 THENA Auto))
THEN Reduce 0
THEN (RWO "simple-cbva-seq-extend-2" 0 THENA Auto)
THEN (RWO "simple-cbva-seq-combine" 0 THENA Auto)
THEN Reduce 0
THEN RepUR ``ifthenelse lt_int btrue eq_int`` 0
THEN LiftAll 0
THEN Reduce 0
THEN Repeat ((SqequalInductionAuxAux false THEN Try (Complete (Auto))))
THEN (Subst ⌜m1 + m2 + 1 ~ (m1 + m2) + 1⌝ 0⋅ THENA Auto)
THEN (RWO "simple-cbva-seq-list-case2" 0 THENA Auto)
THEN BLemma `simple-cbva-seq-sqequal-n`
THEN Try (Complete (Auto'))
THEN (Subst ⌜(n - 1 - 1) + 2 ~ n⌝ 0⋅ THENA Auto)
THEN (Subst ⌜(n - 1 - 1 - (m1 + m2) + 1) + 2 ~ n - (m1 + m2) + 1⌝ 0⋅ THENA Auto)
THEN (D 0 THENA Auto)
THEN RepeatFor 2 ((SqequalNCanonicalCD THENA Auto'))
THEN Try (Complete (Auto))
THEN All (RepUR ``lt_int btrue bfalse``)
THEN LiftAll 2
THEN Reduce 2
THEN BackThruSomeHyp
THEN Auto') }
Latex:
Latex:
\mforall{}[L1,L2,init,S:Base]. \mforall{}[m1,m2:\mBbbN{}\msupplus{}].
(fix((\mlambda{}mk-hdf.(inl (\mlambda{}a.simple-cbva-seq(L1[a];\mlambda{}out.<mk-hdf, out>m1)))))
o (fix((\mlambda{}mk-hdf,s. (inl (\mlambda{}a.simple-cbva-seq(L2[a];\mlambda{}out.<mk-hdf S[s], out>m2))))) init)
\msim{} fix((\mlambda{}mk-hdf,s. (inl (\mlambda{}a.simple-cbva-seq(\mlambda{}n.if n <z m1 then L1[a] n
if n <z m1 + m2 then mk\_lambdas(L2[a] (n - m1);m1)
else mk\_lambdas(\mlambda{}fs.mk\_lambdas(\mlambda{}bs.\mcup{}f\mmember{}fs.\mcup{}b\mmember{}bs.f
b;m2
- 1);m1 - 1)
fi ;\mlambda{}out.<mk-hdf S[s], out>(m1 + m2) + 1)))))
init)
By
Latex:
(Auto
THEN ...
THEN LiftAll 0
THEN Reduce 0
THEN SqequalInduction
THEN (UnivCD THENA Auto)
THEN UnrollLoopsOnceExcept [`simple-cbva-seq`;`mk\_lambdas`;`bag-combine`;`it`]
THEN RepeatFor 2 ((RWO "simple-cbva-seq-spread" 0 THENA Auto))
THEN Reduce 0
THEN (RWO "simple-cbva-seq-extend-2" 0 THENA Auto)
THEN (RWO "simple-cbva-seq-combine" 0 THENA Auto)
THEN Reduce 0
THEN RepUR ``ifthenelse lt\_int btrue eq\_int`` 0
THEN LiftAll 0
THEN Reduce 0
THEN Repeat ((SqequalInductionAuxAux false THEN Try (Complete (Auto))))
THEN (Subst \mkleeneopen{}m1 + m2 + 1 \msim{} (m1 + m2) + 1\mkleeneclose{} 0\mcdot{} THENA Auto)
THEN (RWO "simple-cbva-seq-list-case2" 0 THENA Auto)
THEN BLemma `simple-cbva-seq-sqequal-n`
THEN Try (Complete (Auto'))
THEN (Subst \mkleeneopen{}(n - 1 - 1) + 2 \msim{} n\mkleeneclose{} 0\mcdot{} THENA Auto)
THEN (Subst \mkleeneopen{}(n - 1 - 1 - (m1 + m2) + 1) + 2 \msim{} n - (m1 + m2) + 1\mkleeneclose{} 0\mcdot{} THENA Auto)
THEN (D 0 THENA Auto)
THEN RepeatFor 2 ((SqequalNCanonicalCD THENA Auto'))
THEN Try (Complete (Auto))
THEN All (RepUR ``lt\_int btrue bfalse``)
THEN LiftAll 2
THEN Reduce 2
THEN BackThruSomeHyp
THEN Auto')
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