Termination Proof using AProVE

Term Rewriting System R:
[X]
f(0) -> cons(0, n_{_f}(n_{_s}(n_₀)))
f(s(0)) -> f(p(s(0)))
f(X) -> n_{_f}(X)
p(s(0)) -> 0
s(X) -> n_{_s}(X)
0 -> n_₀
activate(n_{_f}(X)) -> f(activate(X))
activate(n_{_s}(X)) -> s(activate(X))
activate(n_₀) -> 0
activate(X) -> X

Innermost Termination of R to be shown.

     ↳Dependency Pair Analysis

R contains the following Dependency Pairs:

F(s(0)) -> F(p(s(0)))
F(s(0)) -> P(s(0))
ACTIVATE(n_{_f}(X)) -> F(activate(X))
ACTIVATE(n_{_f}(X)) -> ACTIVATE(X)
ACTIVATE(n_{_s}(X)) -> S(activate(X))
ACTIVATE(n_{_s}(X)) -> ACTIVATE(X)
ACTIVATE(n_₀) -> 0'

Furthermore, R contains one SCC.

     ↳DPs

       →DP Problem 1

         ↳Argument Filtering and Ordering

Dependency Pairs:

ACTIVATE(n_{_s}(X)) -> ACTIVATE(X)
ACTIVATE(n_{_f}(X)) -> ACTIVATE(X)

Rules:

f(0) -> cons(0, n_{_f}(n_{_s}(n_₀)))
f(s(0)) -> f(p(s(0)))
f(X) -> n_{_f}(X)
p(s(0)) -> 0
s(X) -> n_{_s}(X)
0 -> n_₀
activate(n_{_f}(X)) -> f(activate(X))
activate(n_{_s}(X)) -> s(activate(X))
activate(n_₀) -> 0
activate(X) -> X

Strategy:

innermost

The following dependency pairs can be strictly oriented:

ACTIVATE(n_{_s}(X)) -> ACTIVATE(X)
ACTIVATE(n_{_f}(X)) -> ACTIVATE(X)

There are no usable rules for innermost that need to be oriented.
Used ordering: Homeomorphic Embedding Order with EMB
resulting in one new DP problem.
Used Argument Filtering System:

ACTIVATE(x₁) -> ACTIVATE(x₁)
n_{_s}(x₁) -> n_{_s}(x₁)
n_{_f}(x₁) -> n_{_f}(x₁)

     ↳DPs

       →DP Problem 1

         ↳AFS

           →DP Problem 2

             ↳Dependency Graph

Dependency Pair:

Rules:

f(0) -> cons(0, n_{_f}(n_{_s}(n_₀)))
f(s(0)) -> f(p(s(0)))
f(X) -> n_{_f}(X)
p(s(0)) -> 0
s(X) -> n_{_s}(X)
0 -> n_₀
activate(n_{_f}(X)) -> f(activate(X))
activate(n_{_s}(X)) -> s(activate(X))
activate(n_₀) -> 0
activate(X) -> X

Strategy:

innermost

Using the Dependency Graph resulted in no new DP problems.

Innermost Termination of R successfully shown.
Duration:
0:00 minutes