YES
Problem:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Proof:
DP Processor:
DPs:
active#(f(X)) -> h#(f(X))
active#(f(X)) -> g#(h(f(X)))
active#(f(X)) -> mark#(g(h(f(X))))
mark#(f(X)) -> mark#(X)
mark#(f(X)) -> f#(mark(X))
mark#(f(X)) -> active#(f(mark(X)))
mark#(g(X)) -> active#(g(X))
mark#(h(X)) -> mark#(X)
mark#(h(X)) -> h#(mark(X))
mark#(h(X)) -> active#(h(mark(X)))
f#(mark(X)) -> f#(X)
f#(active(X)) -> f#(X)
g#(mark(X)) -> g#(X)
g#(active(X)) -> g#(X)
h#(mark(X)) -> h#(X)
h#(active(X)) -> h#(X)
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
TDG Processor:
DPs:
active#(f(X)) -> h#(f(X))
active#(f(X)) -> g#(h(f(X)))
active#(f(X)) -> mark#(g(h(f(X))))
mark#(f(X)) -> mark#(X)
mark#(f(X)) -> f#(mark(X))
mark#(f(X)) -> active#(f(mark(X)))
mark#(g(X)) -> active#(g(X))
mark#(h(X)) -> mark#(X)
mark#(h(X)) -> h#(mark(X))
mark#(h(X)) -> active#(h(mark(X)))
f#(mark(X)) -> f#(X)
f#(active(X)) -> f#(X)
g#(mark(X)) -> g#(X)
g#(active(X)) -> g#(X)
h#(mark(X)) -> h#(X)
h#(active(X)) -> h#(X)
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
graph:
f#(mark(X)) -> f#(X) -> f#(active(X)) -> f#(X)
f#(mark(X)) -> f#(X) -> f#(mark(X)) -> f#(X)
f#(active(X)) -> f#(X) -> f#(active(X)) -> f#(X)
f#(active(X)) -> f#(X) -> f#(mark(X)) -> f#(X)
mark#(g(X)) -> active#(g(X)) -> active#(f(X)) -> mark#(g(h(f(X))))
mark#(g(X)) -> active#(g(X)) -> active#(f(X)) -> g#(h(f(X)))
mark#(g(X)) -> active#(g(X)) -> active#(f(X)) -> h#(f(X))
mark#(h(X)) -> mark#(X) -> mark#(h(X)) -> active#(h(mark(X)))
mark#(h(X)) -> mark#(X) -> mark#(h(X)) -> h#(mark(X))
mark#(h(X)) -> mark#(X) -> mark#(h(X)) -> mark#(X)
mark#(h(X)) -> mark#(X) -> mark#(g(X)) -> active#(g(X))
mark#(h(X)) -> mark#(X) -> mark#(f(X)) -> active#(f(mark(X)))
mark#(h(X)) -> mark#(X) -> mark#(f(X)) -> f#(mark(X))
mark#(h(X)) -> mark#(X) -> mark#(f(X)) -> mark#(X)
mark#(h(X)) -> h#(mark(X)) -> h#(active(X)) -> h#(X)
mark#(h(X)) -> h#(mark(X)) -> h#(mark(X)) -> h#(X)
mark#(h(X)) -> active#(h(mark(X))) ->
active#(f(X)) -> mark#(g(h(f(X))))
mark#(h(X)) -> active#(h(mark(X))) ->
active#(f(X)) -> g#(h(f(X)))
mark#(h(X)) -> active#(h(mark(X))) -> active#(f(X)) -> h#(f(X))
mark#(f(X)) -> f#(mark(X)) -> f#(active(X)) -> f#(X)
mark#(f(X)) -> f#(mark(X)) -> f#(mark(X)) -> f#(X)
mark#(f(X)) -> mark#(X) -> mark#(h(X)) -> active#(h(mark(X)))
mark#(f(X)) -> mark#(X) -> mark#(h(X)) -> h#(mark(X))
mark#(f(X)) -> mark#(X) -> mark#(h(X)) -> mark#(X)
mark#(f(X)) -> mark#(X) -> mark#(g(X)) -> active#(g(X))
mark#(f(X)) -> mark#(X) -> mark#(f(X)) -> active#(f(mark(X)))
mark#(f(X)) -> mark#(X) -> mark#(f(X)) -> f#(mark(X))
mark#(f(X)) -> mark#(X) -> mark#(f(X)) -> mark#(X)
mark#(f(X)) -> active#(f(mark(X))) ->
active#(f(X)) -> mark#(g(h(f(X))))
mark#(f(X)) -> active#(f(mark(X))) ->
active#(f(X)) -> g#(h(f(X)))
mark#(f(X)) -> active#(f(mark(X))) -> active#(f(X)) -> h#(f(X))
g#(mark(X)) -> g#(X) -> g#(active(X)) -> g#(X)
g#(mark(X)) -> g#(X) -> g#(mark(X)) -> g#(X)
g#(active(X)) -> g#(X) -> g#(active(X)) -> g#(X)
g#(active(X)) -> g#(X) -> g#(mark(X)) -> g#(X)
h#(mark(X)) -> h#(X) -> h#(active(X)) -> h#(X)
h#(mark(X)) -> h#(X) -> h#(mark(X)) -> h#(X)
h#(active(X)) -> h#(X) -> h#(active(X)) -> h#(X)
h#(active(X)) -> h#(X) -> h#(mark(X)) -> h#(X)
active#(f(X)) -> mark#(g(h(f(X)))) ->
mark#(h(X)) -> active#(h(mark(X)))
active#(f(X)) -> mark#(g(h(f(X)))) ->
mark#(h(X)) -> h#(mark(X))
active#(f(X)) -> mark#(g(h(f(X)))) -> mark#(h(X)) -> mark#(X)
active#(f(X)) -> mark#(g(h(f(X)))) ->
mark#(g(X)) -> active#(g(X))
active#(f(X)) -> mark#(g(h(f(X)))) ->
mark#(f(X)) -> active#(f(mark(X)))
active#(f(X)) -> mark#(g(h(f(X)))) ->
mark#(f(X)) -> f#(mark(X))
active#(f(X)) -> mark#(g(h(f(X)))) -> mark#(f(X)) -> mark#(X)
active#(f(X)) -> g#(h(f(X))) -> g#(active(X)) -> g#(X)
active#(f(X)) -> g#(h(f(X))) -> g#(mark(X)) -> g#(X)
active#(f(X)) -> h#(f(X)) -> h#(active(X)) -> h#(X)
active#(f(X)) -> h#(f(X)) -> h#(mark(X)) -> h#(X)
SCC Processor:
#sccs: 4
#rules: 12
#arcs: 50/256
DPs:
mark#(g(X)) -> active#(g(X))
active#(f(X)) -> mark#(g(h(f(X))))
mark#(f(X)) -> mark#(X)
mark#(f(X)) -> active#(f(mark(X)))
mark#(h(X)) -> mark#(X)
mark#(h(X)) -> active#(h(mark(X)))
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Matrix Interpretation Processor:
dimension: 1
interpretation:
[mark#](x0) = 1,
[active#](x0) = x0,
[mark](x0) = 0,
[g](x0) = 1,
[h](x0) = 0,
[active](x0) = 0,
[f](x0) = 1
orientation:
mark#(g(X)) = 1 >= 1 = active#(g(X))
active#(f(X)) = 1 >= 1 = mark#(g(h(f(X))))
mark#(f(X)) = 1 >= 1 = mark#(X)
mark#(f(X)) = 1 >= 1 = active#(f(mark(X)))
mark#(h(X)) = 1 >= 1 = mark#(X)
mark#(h(X)) = 1 >= 0 = active#(h(mark(X)))
active(f(X)) = 0 >= 0 = mark(g(h(f(X))))
mark(f(X)) = 0 >= 0 = active(f(mark(X)))
mark(g(X)) = 0 >= 0 = active(g(X))
mark(h(X)) = 0 >= 0 = active(h(mark(X)))
f(mark(X)) = 1 >= 1 = f(X)
f(active(X)) = 1 >= 1 = f(X)
g(mark(X)) = 1 >= 1 = g(X)
g(active(X)) = 1 >= 1 = g(X)
h(mark(X)) = 0 >= 0 = h(X)
h(active(X)) = 0 >= 0 = h(X)
problem:
DPs:
mark#(g(X)) -> active#(g(X))
active#(f(X)) -> mark#(g(h(f(X))))
mark#(f(X)) -> mark#(X)
mark#(f(X)) -> active#(f(mark(X)))
mark#(h(X)) -> mark#(X)
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Matrix Interpretation Processor:
dimension: 1
interpretation:
[mark#](x0) = x0,
[active#](x0) = 0,
[mark](x0) = x0,
[g](x0) = 0,
[h](x0) = x0 + 1,
[active](x0) = x0,
[f](x0) = x0
orientation:
mark#(g(X)) = 0 >= 0 = active#(g(X))
active#(f(X)) = 0 >= 0 = mark#(g(h(f(X))))
mark#(f(X)) = X >= X = mark#(X)
mark#(f(X)) = X >= 0 = active#(f(mark(X)))
mark#(h(X)) = X + 1 >= X = mark#(X)
active(f(X)) = X >= 0 = mark(g(h(f(X))))
mark(f(X)) = X >= X = active(f(mark(X)))
mark(g(X)) = 0 >= 0 = active(g(X))
mark(h(X)) = X + 1 >= X + 1 = active(h(mark(X)))
f(mark(X)) = X >= X = f(X)
f(active(X)) = X >= X = f(X)
g(mark(X)) = 0 >= 0 = g(X)
g(active(X)) = 0 >= 0 = g(X)
h(mark(X)) = X + 1 >= X + 1 = h(X)
h(active(X)) = X + 1 >= X + 1 = h(X)
problem:
DPs:
mark#(g(X)) -> active#(g(X))
active#(f(X)) -> mark#(g(h(f(X))))
mark#(f(X)) -> mark#(X)
mark#(f(X)) -> active#(f(mark(X)))
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Matrix Interpretation Processor:
dimension: 1
interpretation:
[mark#](x0) = x0 + 1,
[active#](x0) = 1,
[mark](x0) = x0 + 1,
[g](x0) = 0,
[h](x0) = 0,
[active](x0) = x0,
[f](x0) = x0 + 1
orientation:
mark#(g(X)) = 1 >= 1 = active#(g(X))
active#(f(X)) = 1 >= 1 = mark#(g(h(f(X))))
mark#(f(X)) = X + 2 >= X + 1 = mark#(X)
mark#(f(X)) = X + 2 >= 1 = active#(f(mark(X)))
active(f(X)) = X + 1 >= 1 = mark(g(h(f(X))))
mark(f(X)) = X + 2 >= X + 2 = active(f(mark(X)))
mark(g(X)) = 1 >= 0 = active(g(X))
mark(h(X)) = 1 >= 0 = active(h(mark(X)))
f(mark(X)) = X + 2 >= X + 1 = f(X)
f(active(X)) = X + 1 >= X + 1 = f(X)
g(mark(X)) = 0 >= 0 = g(X)
g(active(X)) = 0 >= 0 = g(X)
h(mark(X)) = 0 >= 0 = h(X)
h(active(X)) = 0 >= 0 = h(X)
problem:
DPs:
mark#(g(X)) -> active#(g(X))
active#(f(X)) -> mark#(g(h(f(X))))
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Matrix Interpretation Processor:
dimension: 1
interpretation:
[mark#](x0) = 0,
[active#](x0) = x0,
[mark](x0) = 0,
[g](x0) = 0,
[h](x0) = 0,
[active](x0) = 0,
[f](x0) = 1
orientation:
mark#(g(X)) = 0 >= 0 = active#(g(X))
active#(f(X)) = 1 >= 0 = mark#(g(h(f(X))))
active(f(X)) = 0 >= 0 = mark(g(h(f(X))))
mark(f(X)) = 0 >= 0 = active(f(mark(X)))
mark(g(X)) = 0 >= 0 = active(g(X))
mark(h(X)) = 0 >= 0 = active(h(mark(X)))
f(mark(X)) = 1 >= 1 = f(X)
f(active(X)) = 1 >= 1 = f(X)
g(mark(X)) = 0 >= 0 = g(X)
g(active(X)) = 0 >= 0 = g(X)
h(mark(X)) = 0 >= 0 = h(X)
h(active(X)) = 0 >= 0 = h(X)
problem:
DPs:
mark#(g(X)) -> active#(g(X))
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Matrix Interpretation Processor:
dimension: 1
interpretation:
[mark#](x0) = 1,
[active#](x0) = 0,
[mark](x0) = 0,
[g](x0) = 0,
[h](x0) = 0,
[active](x0) = 0,
[f](x0) = 0
orientation:
mark#(g(X)) = 1 >= 0 = active#(g(X))
active(f(X)) = 0 >= 0 = mark(g(h(f(X))))
mark(f(X)) = 0 >= 0 = active(f(mark(X)))
mark(g(X)) = 0 >= 0 = active(g(X))
mark(h(X)) = 0 >= 0 = active(h(mark(X)))
f(mark(X)) = 0 >= 0 = f(X)
f(active(X)) = 0 >= 0 = f(X)
g(mark(X)) = 0 >= 0 = g(X)
g(active(X)) = 0 >= 0 = g(X)
h(mark(X)) = 0 >= 0 = h(X)
h(active(X)) = 0 >= 0 = h(X)
problem:
DPs:
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Qed
DPs:
g#(mark(X)) -> g#(X)
g#(active(X)) -> g#(X)
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Matrix Interpretation Processor:
dimension: 1
interpretation:
[g#](x0) = x0,
[mark](x0) = x0 + 1,
[g](x0) = 0,
[h](x0) = 0,
[active](x0) = x0,
[f](x0) = x0 + 1
orientation:
g#(mark(X)) = X + 1 >= X = g#(X)
g#(active(X)) = X >= X = g#(X)
active(f(X)) = X + 1 >= 1 = mark(g(h(f(X))))
mark(f(X)) = X + 2 >= X + 2 = active(f(mark(X)))
mark(g(X)) = 1 >= 0 = active(g(X))
mark(h(X)) = 1 >= 0 = active(h(mark(X)))
f(mark(X)) = X + 2 >= X + 1 = f(X)
f(active(X)) = X + 1 >= X + 1 = f(X)
g(mark(X)) = 0 >= 0 = g(X)
g(active(X)) = 0 >= 0 = g(X)
h(mark(X)) = 0 >= 0 = h(X)
h(active(X)) = 0 >= 0 = h(X)
problem:
DPs:
g#(active(X)) -> g#(X)
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Matrix Interpretation Processor:
dimension: 1
interpretation:
[g#](x0) = x0,
[mark](x0) = 1,
[g](x0) = 0,
[h](x0) = 0,
[active](x0) = x0 + 1,
[f](x0) = 0
orientation:
g#(active(X)) = X + 1 >= X = g#(X)
active(f(X)) = 1 >= 1 = mark(g(h(f(X))))
mark(f(X)) = 1 >= 1 = active(f(mark(X)))
mark(g(X)) = 1 >= 1 = active(g(X))
mark(h(X)) = 1 >= 1 = active(h(mark(X)))
f(mark(X)) = 0 >= 0 = f(X)
f(active(X)) = 0 >= 0 = f(X)
g(mark(X)) = 0 >= 0 = g(X)
g(active(X)) = 0 >= 0 = g(X)
h(mark(X)) = 0 >= 0 = h(X)
h(active(X)) = 0 >= 0 = h(X)
problem:
DPs:
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Qed
DPs:
h#(mark(X)) -> h#(X)
h#(active(X)) -> h#(X)
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Matrix Interpretation Processor:
dimension: 1
interpretation:
[h#](x0) = x0,
[mark](x0) = x0 + 1,
[g](x0) = 0,
[h](x0) = 0,
[active](x0) = x0,
[f](x0) = x0 + 1
orientation:
h#(mark(X)) = X + 1 >= X = h#(X)
h#(active(X)) = X >= X = h#(X)
active(f(X)) = X + 1 >= 1 = mark(g(h(f(X))))
mark(f(X)) = X + 2 >= X + 2 = active(f(mark(X)))
mark(g(X)) = 1 >= 0 = active(g(X))
mark(h(X)) = 1 >= 0 = active(h(mark(X)))
f(mark(X)) = X + 2 >= X + 1 = f(X)
f(active(X)) = X + 1 >= X + 1 = f(X)
g(mark(X)) = 0 >= 0 = g(X)
g(active(X)) = 0 >= 0 = g(X)
h(mark(X)) = 0 >= 0 = h(X)
h(active(X)) = 0 >= 0 = h(X)
problem:
DPs:
h#(active(X)) -> h#(X)
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Matrix Interpretation Processor:
dimension: 1
interpretation:
[h#](x0) = x0,
[mark](x0) = 1,
[g](x0) = 0,
[h](x0) = 0,
[active](x0) = x0 + 1,
[f](x0) = 0
orientation:
h#(active(X)) = X + 1 >= X = h#(X)
active(f(X)) = 1 >= 1 = mark(g(h(f(X))))
mark(f(X)) = 1 >= 1 = active(f(mark(X)))
mark(g(X)) = 1 >= 1 = active(g(X))
mark(h(X)) = 1 >= 1 = active(h(mark(X)))
f(mark(X)) = 0 >= 0 = f(X)
f(active(X)) = 0 >= 0 = f(X)
g(mark(X)) = 0 >= 0 = g(X)
g(active(X)) = 0 >= 0 = g(X)
h(mark(X)) = 0 >= 0 = h(X)
h(active(X)) = 0 >= 0 = h(X)
problem:
DPs:
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Qed
DPs:
f#(mark(X)) -> f#(X)
f#(active(X)) -> f#(X)
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Matrix Interpretation Processor:
dimension: 1
interpretation:
[f#](x0) = x0,
[mark](x0) = x0 + 1,
[g](x0) = 0,
[h](x0) = 0,
[active](x0) = x0,
[f](x0) = x0 + 1
orientation:
f#(mark(X)) = X + 1 >= X = f#(X)
f#(active(X)) = X >= X = f#(X)
active(f(X)) = X + 1 >= 1 = mark(g(h(f(X))))
mark(f(X)) = X + 2 >= X + 2 = active(f(mark(X)))
mark(g(X)) = 1 >= 0 = active(g(X))
mark(h(X)) = 1 >= 0 = active(h(mark(X)))
f(mark(X)) = X + 2 >= X + 1 = f(X)
f(active(X)) = X + 1 >= X + 1 = f(X)
g(mark(X)) = 0 >= 0 = g(X)
g(active(X)) = 0 >= 0 = g(X)
h(mark(X)) = 0 >= 0 = h(X)
h(active(X)) = 0 >= 0 = h(X)
problem:
DPs:
f#(active(X)) -> f#(X)
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Matrix Interpretation Processor:
dimension: 1
interpretation:
[f#](x0) = x0,
[mark](x0) = 1,
[g](x0) = 0,
[h](x0) = 0,
[active](x0) = x0 + 1,
[f](x0) = 0
orientation:
f#(active(X)) = X + 1 >= X = f#(X)
active(f(X)) = 1 >= 1 = mark(g(h(f(X))))
mark(f(X)) = 1 >= 1 = active(f(mark(X)))
mark(g(X)) = 1 >= 1 = active(g(X))
mark(h(X)) = 1 >= 1 = active(h(mark(X)))
f(mark(X)) = 0 >= 0 = f(X)
f(active(X)) = 0 >= 0 = f(X)
g(mark(X)) = 0 >= 0 = g(X)
g(active(X)) = 0 >= 0 = g(X)
h(mark(X)) = 0 >= 0 = h(X)
h(active(X)) = 0 >= 0 = h(X)
problem:
DPs:
TRS:
active(f(X)) -> mark(g(h(f(X))))
mark(f(X)) -> active(f(mark(X)))
mark(g(X)) -> active(g(X))
mark(h(X)) -> active(h(mark(X)))
f(mark(X)) -> f(X)
f(active(X)) -> f(X)
g(mark(X)) -> g(X)
g(active(X)) -> g(X)
h(mark(X)) -> h(X)
h(active(X)) -> h(X)
Qed