(0) Obligation:

Runtime Complexity TRS:
The TRS R consists of the following rules:

circ(cons(a, s), t) → cons(msubst(a, t), circ(s, t))
circ(cons(lift, s), cons(a, t)) → cons(a, circ(s, t))
circ(cons(lift, s), cons(lift, t)) → cons(lift, circ(s, t))
circ(circ(s, t), u) → circ(s, circ(t, u))
circ(s, id) → s
circ(id, s) → s
circ(cons(lift, s), circ(cons(lift, t), u)) → circ(cons(lift, circ(s, t)), u)
subst(a, id) → a
msubst(a, id) → a
msubst(msubst(a, s), t) → msubst(a, circ(s, t))

Rewrite Strategy: INNERMOST

(1) RenamingProof (EQUIVALENT transformation)

Renamed function symbols to avoid clashes with predefined symbol.

(2) Obligation:

Runtime Complexity Relative TRS:
The TRS R consists of the following rules:

circ(cons(a, s), t) → cons(msubst(a, t), circ(s, t))
circ(cons(lift, s), cons(a, t)) → cons(a, circ(s, t))
circ(cons(lift, s), cons(lift, t)) → cons(lift, circ(s, t))
circ(circ(s, t), u) → circ(s, circ(t, u))
circ(s, id) → s
circ(id, s) → s
circ(cons(lift, s), circ(cons(lift, t), u)) → circ(cons(lift, circ(s, t)), u)
subst(a, id) → a
msubst(a, id) → a
msubst(msubst(a, s), t) → msubst(a, circ(s, t))

S is empty.
Rewrite Strategy: INNERMOST

(3) TypeInferenceProof (BOTH BOUNDS(ID, ID) transformation)

Infered types.

(4) Obligation:

Innermost TRS:
Rules:
circ(cons(a, s), t) → cons(msubst(a, t), circ(s, t))
circ(cons(lift, s), cons(a, t)) → cons(a, circ(s, t))
circ(cons(lift, s), cons(lift, t)) → cons(lift, circ(s, t))
circ(circ(s, t), u) → circ(s, circ(t, u))
circ(s, id) → s
circ(id, s) → s
circ(cons(lift, s), circ(cons(lift, t), u)) → circ(cons(lift, circ(s, t)), u)
subst(a, id) → a
msubst(a, id) → a
msubst(msubst(a, s), t) → msubst(a, circ(s, t))

Types:
circ :: cons:id → cons:id → cons:id
cons :: lift → cons:id → cons:id
msubst :: lift → cons:id → lift
lift :: lift
id :: cons:id
subst :: subst → cons:id → subst
hole_cons:id1_0 :: cons:id
hole_lift2_0 :: lift
hole_subst3_0 :: subst
gen_cons:id4_0 :: Nat → cons:id

(5) OrderProof (LOWER BOUND(ID) transformation)

Heuristically decided to analyse the following defined symbols:
circ, msubst

They will be analysed ascendingly in the following order:
circ = msubst

(6) Obligation:

Innermost TRS:
Rules:
circ(cons(a, s), t) → cons(msubst(a, t), circ(s, t))
circ(cons(lift, s), cons(a, t)) → cons(a, circ(s, t))
circ(cons(lift, s), cons(lift, t)) → cons(lift, circ(s, t))
circ(circ(s, t), u) → circ(s, circ(t, u))
circ(s, id) → s
circ(id, s) → s
circ(cons(lift, s), circ(cons(lift, t), u)) → circ(cons(lift, circ(s, t)), u)
subst(a, id) → a
msubst(a, id) → a
msubst(msubst(a, s), t) → msubst(a, circ(s, t))

Types:
circ :: cons:id → cons:id → cons:id
cons :: lift → cons:id → cons:id
msubst :: lift → cons:id → lift
lift :: lift
id :: cons:id
subst :: subst → cons:id → subst
hole_cons:id1_0 :: cons:id
hole_lift2_0 :: lift
hole_subst3_0 :: subst
gen_cons:id4_0 :: Nat → cons:id

Generator Equations:
gen_cons:id4_0(0) ⇔ id
gen_cons:id4_0(+(x, 1)) ⇔ cons(lift, gen_cons:id4_0(x))

The following defined symbols remain to be analysed:
msubst, circ

They will be analysed ascendingly in the following order:
circ = msubst

(7) NoRewriteLemmaProof (LOWER BOUND(ID) transformation)

Could not prove a rewrite lemma for the defined symbol msubst.

(8) Obligation:

Innermost TRS:
Rules:
circ(cons(a, s), t) → cons(msubst(a, t), circ(s, t))
circ(cons(lift, s), cons(a, t)) → cons(a, circ(s, t))
circ(cons(lift, s), cons(lift, t)) → cons(lift, circ(s, t))
circ(circ(s, t), u) → circ(s, circ(t, u))
circ(s, id) → s
circ(id, s) → s
circ(cons(lift, s), circ(cons(lift, t), u)) → circ(cons(lift, circ(s, t)), u)
subst(a, id) → a
msubst(a, id) → a
msubst(msubst(a, s), t) → msubst(a, circ(s, t))

Types:
circ :: cons:id → cons:id → cons:id
cons :: lift → cons:id → cons:id
msubst :: lift → cons:id → lift
lift :: lift
id :: cons:id
subst :: subst → cons:id → subst
hole_cons:id1_0 :: cons:id
hole_lift2_0 :: lift
hole_subst3_0 :: subst
gen_cons:id4_0 :: Nat → cons:id

Generator Equations:
gen_cons:id4_0(0) ⇔ id
gen_cons:id4_0(+(x, 1)) ⇔ cons(lift, gen_cons:id4_0(x))

The following defined symbols remain to be analysed:
circ

They will be analysed ascendingly in the following order:
circ = msubst

(9) RewriteLemmaProof (LOWER BOUND(ID) transformation)

Proved the following rewrite lemma:
circ(gen_cons:id4_0(n16_0), gen_cons:id4_0(n16_0)) → gen_cons:id4_0(n16_0), rt ∈ Ω(1 + n160)

Induction Base:
circ(gen_cons:id4_0(0), gen_cons:id4_0(0)) →RΩ(1)
gen_cons:id4_0(0)

Induction Step:
circ(gen_cons:id4_0(+(n16_0, 1)), gen_cons:id4_0(+(n16_0, 1))) →RΩ(1)
cons(lift, circ(gen_cons:id4_0(n16_0), gen_cons:id4_0(n16_0))) →IH
cons(lift, gen_cons:id4_0(c17_0))

We have rt ∈ Ω(n1) and sz ∈ O(n). Thus, we have ircR ∈ Ω(n).

(10) Complex Obligation (BEST)

(11) Obligation:

Innermost TRS:
Rules:
circ(cons(a, s), t) → cons(msubst(a, t), circ(s, t))
circ(cons(lift, s), cons(a, t)) → cons(a, circ(s, t))
circ(cons(lift, s), cons(lift, t)) → cons(lift, circ(s, t))
circ(circ(s, t), u) → circ(s, circ(t, u))
circ(s, id) → s
circ(id, s) → s
circ(cons(lift, s), circ(cons(lift, t), u)) → circ(cons(lift, circ(s, t)), u)
subst(a, id) → a
msubst(a, id) → a
msubst(msubst(a, s), t) → msubst(a, circ(s, t))

Types:
circ :: cons:id → cons:id → cons:id
cons :: lift → cons:id → cons:id
msubst :: lift → cons:id → lift
lift :: lift
id :: cons:id
subst :: subst → cons:id → subst
hole_cons:id1_0 :: cons:id
hole_lift2_0 :: lift
hole_subst3_0 :: subst
gen_cons:id4_0 :: Nat → cons:id

Lemmas:
circ(gen_cons:id4_0(n16_0), gen_cons:id4_0(n16_0)) → gen_cons:id4_0(n16_0), rt ∈ Ω(1 + n160)

Generator Equations:
gen_cons:id4_0(0) ⇔ id
gen_cons:id4_0(+(x, 1)) ⇔ cons(lift, gen_cons:id4_0(x))

The following defined symbols remain to be analysed:
msubst

They will be analysed ascendingly in the following order:
circ = msubst

(12) NoRewriteLemmaProof (LOWER BOUND(ID) transformation)

Could not prove a rewrite lemma for the defined symbol msubst.

(13) Obligation:

Innermost TRS:
Rules:
circ(cons(a, s), t) → cons(msubst(a, t), circ(s, t))
circ(cons(lift, s), cons(a, t)) → cons(a, circ(s, t))
circ(cons(lift, s), cons(lift, t)) → cons(lift, circ(s, t))
circ(circ(s, t), u) → circ(s, circ(t, u))
circ(s, id) → s
circ(id, s) → s
circ(cons(lift, s), circ(cons(lift, t), u)) → circ(cons(lift, circ(s, t)), u)
subst(a, id) → a
msubst(a, id) → a
msubst(msubst(a, s), t) → msubst(a, circ(s, t))

Types:
circ :: cons:id → cons:id → cons:id
cons :: lift → cons:id → cons:id
msubst :: lift → cons:id → lift
lift :: lift
id :: cons:id
subst :: subst → cons:id → subst
hole_cons:id1_0 :: cons:id
hole_lift2_0 :: lift
hole_subst3_0 :: subst
gen_cons:id4_0 :: Nat → cons:id

Lemmas:
circ(gen_cons:id4_0(n16_0), gen_cons:id4_0(n16_0)) → gen_cons:id4_0(n16_0), rt ∈ Ω(1 + n160)

Generator Equations:
gen_cons:id4_0(0) ⇔ id
gen_cons:id4_0(+(x, 1)) ⇔ cons(lift, gen_cons:id4_0(x))

No more defined symbols left to analyse.

(14) LowerBoundsProof (EQUIVALENT transformation)

The lowerbound Ω(n1) was proven with the following lemma:
circ(gen_cons:id4_0(n16_0), gen_cons:id4_0(n16_0)) → gen_cons:id4_0(n16_0), rt ∈ Ω(1 + n160)

(15) BOUNDS(n^1, INF)

(16) Obligation:

Innermost TRS:
Rules:
circ(cons(a, s), t) → cons(msubst(a, t), circ(s, t))
circ(cons(lift, s), cons(a, t)) → cons(a, circ(s, t))
circ(cons(lift, s), cons(lift, t)) → cons(lift, circ(s, t))
circ(circ(s, t), u) → circ(s, circ(t, u))
circ(s, id) → s
circ(id, s) → s
circ(cons(lift, s), circ(cons(lift, t), u)) → circ(cons(lift, circ(s, t)), u)
subst(a, id) → a
msubst(a, id) → a
msubst(msubst(a, s), t) → msubst(a, circ(s, t))

Types:
circ :: cons:id → cons:id → cons:id
cons :: lift → cons:id → cons:id
msubst :: lift → cons:id → lift
lift :: lift
id :: cons:id
subst :: subst → cons:id → subst
hole_cons:id1_0 :: cons:id
hole_lift2_0 :: lift
hole_subst3_0 :: subst
gen_cons:id4_0 :: Nat → cons:id

Lemmas:
circ(gen_cons:id4_0(n16_0), gen_cons:id4_0(n16_0)) → gen_cons:id4_0(n16_0), rt ∈ Ω(1 + n160)

Generator Equations:
gen_cons:id4_0(0) ⇔ id
gen_cons:id4_0(+(x, 1)) ⇔ cons(lift, gen_cons:id4_0(x))

No more defined symbols left to analyse.

(17) LowerBoundsProof (EQUIVALENT transformation)

The lowerbound Ω(n1) was proven with the following lemma:
circ(gen_cons:id4_0(n16_0), gen_cons:id4_0(n16_0)) → gen_cons:id4_0(n16_0), rt ∈ Ω(1 + n160)

(18) BOUNDS(n^1, INF)