Termination Proof using AProVE

Term Rewriting System R:
[x, y, z]
f(0, 1, x) -> f(g(x), g(x), x)
f(g(x), y, z) -> g(f(x, y, z))
f(x, g(y), z) -> g(f(x, y, z))
f(x, y, g(z)) -> g(f(x, y, z))

Termination of R to be shown.

     ↳Dependency Pair Analysis

R contains the following Dependency Pairs:

F(0, 1, x) -> F(g(x), g(x), x)
F(g(x), y, z) -> F(x, y, z)
F(x, g(y), z) -> F(x, y, z)
F(x, y, g(z)) -> F(x, y, z)

Furthermore, R contains one SCC.

     ↳DPs

       →DP Problem 1

         ↳Negative Polynomial Order

Dependency Pairs:

F(x, y, g(z)) -> F(x, y, z)
F(x, g(y), z) -> F(x, y, z)
F(g(x), y, z) -> F(x, y, z)
F(0, 1, x) -> F(g(x), g(x), x)

Rules:

f(0, 1, x) -> f(g(x), g(x), x)
f(g(x), y, z) -> g(f(x, y, z))
f(x, g(y), z) -> g(f(x, y, z))
f(x, y, g(z)) -> g(f(x, y, z))

The following Dependency Pair can be strictly oriented using the given order.

F(x, y, g(z)) -> F(x, y, z)

There are no usable rules (regarding the implicit AFS).
Used ordering:
Polynomial Order with Interpretation:

POL( F(x₁, ..., x₃) ) = x₃

POL( g(x₁) ) = x₁ + 1

This results in one new DP problem.

     ↳DPs

       →DP Problem 1

         ↳Neg POLO

           →DP Problem 2

             ↳Semantic Labelling

Dependency Pairs:

F(x, g(y), z) -> F(x, y, z)
F(g(x), y, z) -> F(x, y, z)
F(0, 1, x) -> F(g(x), g(x), x)

Rules:

f(0, 1, x) -> f(g(x), g(x), x)
f(g(x), y, z) -> g(f(x, y, z))
f(x, g(y), z) -> g(f(x, y, z))
f(x, y, g(z)) -> g(f(x, y, z))

Using Semantic Labelling, the DP problem could be transformed. The following model was found:

f(x₀, x₁, x₂) = 1

g(x₀) = x₀

F(x₀, x₁, x₂) = 1 + x₂

0 = 0

1 = 1

From the dependency graph we obtain 8 (labeled) SCCs which each result in correspondingDP problem.

     ↳DPs

       →DP Problem 1

         ↳Neg POLO

           →DP Problem 2

             ↳SemLab

...

               →DP Problem 3

                 ↳Modular Removal of Rules

Dependency Pairs:

F₁₁₁(g₁(x), y, z) -> F₁₁₁(x, y, z)
F₁₁₁(x, g₁(y), z) -> F₁₁₁(x, y, z)

Rules:

f₀₁₀(0, 1, x) -> f₀₀₀(g₀(x), g₀(x), x)
f₀₁₀(g₀(x), y, z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, g₁(y), z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, y, g₀(z)) -> g₁(f₀₁₀(x, y, z))
f₀₀₀(g₀(x), y, z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, g₀(y), z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, y, g₀(z)) -> g₁(f₀₀₀(x, y, z))
f₀₁₁(0, 1, x) -> f₁₁₁(g₁(x), g₁(x), x)
f₀₁₁(g₀(x), y, z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, g₁(y), z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, y, g₁(z)) -> g₁(f₀₁₁(x, y, z))
f₁₁₁(g₁(x), y, z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, g₁(y), z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, y, g₁(z)) -> g₁(f₁₁₁(x, y, z))
f₀₀₁(g₀(x), y, z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, g₀(y), z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, y, g₁(z)) -> g₁(f₀₀₁(x, y, z))
f₁₀₀(g₁(x), y, z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, g₀(y), z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, y, g₀(z)) -> g₁(f₁₀₀(x, y, z))
f₁₀₁(g₁(x), y, z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, g₀(y), z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, y, g₁(z)) -> g₁(f₁₀₁(x, y, z))
f₁₁₀(g₁(x), y, z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, g₁(y), z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, y, g₀(z)) -> g₁(f₁₁₀(x, y, z))

We have the following set of usable rules: none
To remove rules and DPs from this DP problem we used the following monotonic and C_E-compatible order: Polynomial ordering.
Polynomial interpretation:

POL(F_111(x₁, x₂, x₃)) = x₁ + x₂ + x₃

POL(g_1(x₁)) = x₁

We have the following set D of usable symbols: {F₁₁₁}
The following Dependency Pairs can be deleted as they contain symbols in their lhs which do not occur in D:

F₁₁₁(g₁(x), y, z) -> F₁₁₁(x, y, z)
F₁₁₁(x, g₁(y), z) -> F₁₁₁(x, y, z)

No Rules can be deleted.

After the removal, there are no SCCs in the dependency graph which results in no DP problems which have to be solved.

     ↳DPs

       →DP Problem 1

         ↳Neg POLO

           →DP Problem 2

             ↳SemLab

...

               →DP Problem 4

                 ↳Modular Removal of Rules

Dependency Pairs:

F₁₀₀(g₁(x), y, z) -> F₁₀₀(x, y, z)
F₁₀₀(x, g₀(y), z) -> F₁₀₀(x, y, z)

Rules:

f₀₁₀(0, 1, x) -> f₀₀₀(g₀(x), g₀(x), x)
f₀₁₀(g₀(x), y, z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, g₁(y), z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, y, g₀(z)) -> g₁(f₀₁₀(x, y, z))
f₀₀₀(g₀(x), y, z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, g₀(y), z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, y, g₀(z)) -> g₁(f₀₀₀(x, y, z))
f₀₁₁(0, 1, x) -> f₁₁₁(g₁(x), g₁(x), x)
f₀₁₁(g₀(x), y, z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, g₁(y), z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, y, g₁(z)) -> g₁(f₀₁₁(x, y, z))
f₁₁₁(g₁(x), y, z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, g₁(y), z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, y, g₁(z)) -> g₁(f₁₁₁(x, y, z))
f₀₀₁(g₀(x), y, z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, g₀(y), z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, y, g₁(z)) -> g₁(f₀₀₁(x, y, z))
f₁₀₀(g₁(x), y, z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, g₀(y), z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, y, g₀(z)) -> g₁(f₁₀₀(x, y, z))
f₁₀₁(g₁(x), y, z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, g₀(y), z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, y, g₁(z)) -> g₁(f₁₀₁(x, y, z))
f₁₁₀(g₁(x), y, z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, g₁(y), z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, y, g₀(z)) -> g₁(f₁₁₀(x, y, z))

We have the following set of usable rules: none
To remove rules and DPs from this DP problem we used the following monotonic and C_E-compatible order: Polynomial ordering.
Polynomial interpretation:

POL(F_100(x₁, x₂, x₃)) = x₁ + x₂ + x₃

POL(g_1(x₁)) = x₁

POL(g_0(x₁)) = x₁

We have the following set D of usable symbols: {F₁₀₀}
The following Dependency Pairs can be deleted as they contain symbols in their lhs which do not occur in D:

F₁₀₀(g₁(x), y, z) -> F₁₀₀(x, y, z)
F₁₀₀(x, g₀(y), z) -> F₁₀₀(x, y, z)

No Rules can be deleted.

After the removal, there are no SCCs in the dependency graph which results in no DP problems which have to be solved.

     ↳DPs

       →DP Problem 1

         ↳Neg POLO

           →DP Problem 2

             ↳SemLab

...

               →DP Problem 5

                 ↳Modular Removal of Rules

Dependency Pairs:

F₀₁₁(g₀(x), y, z) -> F₀₁₁(x, y, z)
F₀₁₁(x, g₁(y), z) -> F₀₁₁(x, y, z)

Rules:

f₀₁₀(0, 1, x) -> f₀₀₀(g₀(x), g₀(x), x)
f₀₁₀(g₀(x), y, z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, g₁(y), z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, y, g₀(z)) -> g₁(f₀₁₀(x, y, z))
f₀₀₀(g₀(x), y, z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, g₀(y), z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, y, g₀(z)) -> g₁(f₀₀₀(x, y, z))
f₀₁₁(0, 1, x) -> f₁₁₁(g₁(x), g₁(x), x)
f₀₁₁(g₀(x), y, z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, g₁(y), z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, y, g₁(z)) -> g₁(f₀₁₁(x, y, z))
f₁₁₁(g₁(x), y, z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, g₁(y), z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, y, g₁(z)) -> g₁(f₁₁₁(x, y, z))
f₀₀₁(g₀(x), y, z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, g₀(y), z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, y, g₁(z)) -> g₁(f₀₀₁(x, y, z))
f₁₀₀(g₁(x), y, z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, g₀(y), z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, y, g₀(z)) -> g₁(f₁₀₀(x, y, z))
f₁₀₁(g₁(x), y, z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, g₀(y), z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, y, g₁(z)) -> g₁(f₁₀₁(x, y, z))
f₁₁₀(g₁(x), y, z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, g₁(y), z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, y, g₀(z)) -> g₁(f₁₁₀(x, y, z))

We have the following set of usable rules: none
To remove rules and DPs from this DP problem we used the following monotonic and C_E-compatible order: Polynomial ordering.
Polynomial interpretation:

POL(g_1(x₁)) = x₁

POL(F_011(x₁, x₂, x₃)) = x₁ + x₂ + x₃

POL(g_0(x₁)) = x₁

We have the following set D of usable symbols: {F₀₁₁}
The following Dependency Pairs can be deleted as they contain symbols in their lhs which do not occur in D:

F₀₁₁(g₀(x), y, z) -> F₀₁₁(x, y, z)
F₀₁₁(x, g₁(y), z) -> F₀₁₁(x, y, z)

No Rules can be deleted.

After the removal, there are no SCCs in the dependency graph which results in no DP problems which have to be solved.

     ↳DPs

       →DP Problem 1

         ↳Neg POLO

           →DP Problem 2

             ↳SemLab

...

               →DP Problem 6

                 ↳Modular Removal of Rules

Dependency Pairs:

F₁₁₀(g₁(x), y, z) -> F₁₁₀(x, y, z)
F₁₁₀(x, g₁(y), z) -> F₁₁₀(x, y, z)

Rules:

f₀₁₀(0, 1, x) -> f₀₀₀(g₀(x), g₀(x), x)
f₀₁₀(g₀(x), y, z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, g₁(y), z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, y, g₀(z)) -> g₁(f₀₁₀(x, y, z))
f₀₀₀(g₀(x), y, z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, g₀(y), z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, y, g₀(z)) -> g₁(f₀₀₀(x, y, z))
f₀₁₁(0, 1, x) -> f₁₁₁(g₁(x), g₁(x), x)
f₀₁₁(g₀(x), y, z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, g₁(y), z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, y, g₁(z)) -> g₁(f₀₁₁(x, y, z))
f₁₁₁(g₁(x), y, z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, g₁(y), z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, y, g₁(z)) -> g₁(f₁₁₁(x, y, z))
f₀₀₁(g₀(x), y, z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, g₀(y), z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, y, g₁(z)) -> g₁(f₀₀₁(x, y, z))
f₁₀₀(g₁(x), y, z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, g₀(y), z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, y, g₀(z)) -> g₁(f₁₀₀(x, y, z))
f₁₀₁(g₁(x), y, z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, g₀(y), z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, y, g₁(z)) -> g₁(f₁₀₁(x, y, z))
f₁₁₀(g₁(x), y, z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, g₁(y), z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, y, g₀(z)) -> g₁(f₁₁₀(x, y, z))

We have the following set of usable rules: none
To remove rules and DPs from this DP problem we used the following monotonic and C_E-compatible order: Polynomial ordering.
Polynomial interpretation:

POL(g_1(x₁)) = x₁

POL(F_110(x₁, x₂, x₃)) = x₁ + x₂ + x₃

We have the following set D of usable symbols: {F₁₁₀}
The following Dependency Pairs can be deleted as they contain symbols in their lhs which do not occur in D:

F₁₁₀(g₁(x), y, z) -> F₁₁₀(x, y, z)
F₁₁₀(x, g₁(y), z) -> F₁₁₀(x, y, z)

No Rules can be deleted.

After the removal, there are no SCCs in the dependency graph which results in no DP problems which have to be solved.

     ↳DPs

       →DP Problem 1

         ↳Neg POLO

           →DP Problem 2

             ↳SemLab

...

               →DP Problem 7

                 ↳Modular Removal of Rules

Dependency Pairs:

F₀₀₁(g₀(x), y, z) -> F₀₀₁(x, y, z)
F₀₀₁(x, g₀(y), z) -> F₀₀₁(x, y, z)

Rules:

f₀₁₀(0, 1, x) -> f₀₀₀(g₀(x), g₀(x), x)
f₀₁₀(g₀(x), y, z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, g₁(y), z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, y, g₀(z)) -> g₁(f₀₁₀(x, y, z))
f₀₀₀(g₀(x), y, z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, g₀(y), z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, y, g₀(z)) -> g₁(f₀₀₀(x, y, z))
f₀₁₁(0, 1, x) -> f₁₁₁(g₁(x), g₁(x), x)
f₀₁₁(g₀(x), y, z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, g₁(y), z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, y, g₁(z)) -> g₁(f₀₁₁(x, y, z))
f₁₁₁(g₁(x), y, z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, g₁(y), z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, y, g₁(z)) -> g₁(f₁₁₁(x, y, z))
f₀₀₁(g₀(x), y, z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, g₀(y), z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, y, g₁(z)) -> g₁(f₀₀₁(x, y, z))
f₁₀₀(g₁(x), y, z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, g₀(y), z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, y, g₀(z)) -> g₁(f₁₀₀(x, y, z))
f₁₀₁(g₁(x), y, z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, g₀(y), z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, y, g₁(z)) -> g₁(f₁₀₁(x, y, z))
f₁₁₀(g₁(x), y, z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, g₁(y), z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, y, g₀(z)) -> g₁(f₁₁₀(x, y, z))

We have the following set of usable rules: none
To remove rules and DPs from this DP problem we used the following monotonic and C_E-compatible order: Polynomial ordering.
Polynomial interpretation:

POL(F_001(x₁, x₂, x₃)) = x₁ + x₂ + x₃

POL(g_0(x₁)) = x₁

We have the following set D of usable symbols: {F₀₀₁}
The following Dependency Pairs can be deleted as they contain symbols in their lhs which do not occur in D:

F₀₀₁(g₀(x), y, z) -> F₀₀₁(x, y, z)
F₀₀₁(x, g₀(y), z) -> F₀₀₁(x, y, z)

No Rules can be deleted.

After the removal, there are no SCCs in the dependency graph which results in no DP problems which have to be solved.

     ↳DPs

       →DP Problem 1

         ↳Neg POLO

           →DP Problem 2

             ↳SemLab

...

               →DP Problem 8

                 ↳Modular Removal of Rules

Dependency Pairs:

F₀₀₀(g₀(x), y, z) -> F₀₀₀(x, y, z)
F₀₀₀(x, g₀(y), z) -> F₀₀₀(x, y, z)

Rules:

f₀₁₀(0, 1, x) -> f₀₀₀(g₀(x), g₀(x), x)
f₀₁₀(g₀(x), y, z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, g₁(y), z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, y, g₀(z)) -> g₁(f₀₁₀(x, y, z))
f₀₀₀(g₀(x), y, z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, g₀(y), z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, y, g₀(z)) -> g₁(f₀₀₀(x, y, z))
f₀₁₁(0, 1, x) -> f₁₁₁(g₁(x), g₁(x), x)
f₀₁₁(g₀(x), y, z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, g₁(y), z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, y, g₁(z)) -> g₁(f₀₁₁(x, y, z))
f₁₁₁(g₁(x), y, z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, g₁(y), z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, y, g₁(z)) -> g₁(f₁₁₁(x, y, z))
f₀₀₁(g₀(x), y, z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, g₀(y), z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, y, g₁(z)) -> g₁(f₀₀₁(x, y, z))
f₁₀₀(g₁(x), y, z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, g₀(y), z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, y, g₀(z)) -> g₁(f₁₀₀(x, y, z))
f₁₀₁(g₁(x), y, z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, g₀(y), z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, y, g₁(z)) -> g₁(f₁₀₁(x, y, z))
f₁₁₀(g₁(x), y, z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, g₁(y), z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, y, g₀(z)) -> g₁(f₁₁₀(x, y, z))

We have the following set of usable rules: none
To remove rules and DPs from this DP problem we used the following monotonic and C_E-compatible order: Polynomial ordering.
Polynomial interpretation:

POL(F_000(x₁, x₂, x₃)) = x₁ + x₂ + x₃

POL(g_0(x₁)) = x₁

We have the following set D of usable symbols: {F₀₀₀}
The following Dependency Pairs can be deleted as they contain symbols in their lhs which do not occur in D:

F₀₀₀(g₀(x), y, z) -> F₀₀₀(x, y, z)
F₀₀₀(x, g₀(y), z) -> F₀₀₀(x, y, z)

No Rules can be deleted.

After the removal, there are no SCCs in the dependency graph which results in no DP problems which have to be solved.

     ↳DPs

       →DP Problem 1

         ↳Neg POLO

           →DP Problem 2

             ↳SemLab

...

               →DP Problem 9

                 ↳Modular Removal of Rules

Dependency Pairs:

F₁₀₁(g₁(x), y, z) -> F₁₀₁(x, y, z)
F₁₀₁(x, g₀(y), z) -> F₁₀₁(x, y, z)

Rules:

f₀₁₀(0, 1, x) -> f₀₀₀(g₀(x), g₀(x), x)
f₀₁₀(g₀(x), y, z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, g₁(y), z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, y, g₀(z)) -> g₁(f₀₁₀(x, y, z))
f₀₀₀(g₀(x), y, z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, g₀(y), z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, y, g₀(z)) -> g₁(f₀₀₀(x, y, z))
f₀₁₁(0, 1, x) -> f₁₁₁(g₁(x), g₁(x), x)
f₀₁₁(g₀(x), y, z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, g₁(y), z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, y, g₁(z)) -> g₁(f₀₁₁(x, y, z))
f₁₁₁(g₁(x), y, z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, g₁(y), z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, y, g₁(z)) -> g₁(f₁₁₁(x, y, z))
f₀₀₁(g₀(x), y, z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, g₀(y), z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, y, g₁(z)) -> g₁(f₀₀₁(x, y, z))
f₁₀₀(g₁(x), y, z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, g₀(y), z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, y, g₀(z)) -> g₁(f₁₀₀(x, y, z))
f₁₀₁(g₁(x), y, z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, g₀(y), z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, y, g₁(z)) -> g₁(f₁₀₁(x, y, z))
f₁₁₀(g₁(x), y, z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, g₁(y), z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, y, g₀(z)) -> g₁(f₁₁₀(x, y, z))

We have the following set of usable rules: none
To remove rules and DPs from this DP problem we used the following monotonic and C_E-compatible order: Polynomial ordering.
Polynomial interpretation:

POL(g_1(x₁)) = x₁

POL(F_101(x₁, x₂, x₃)) = x₁ + x₂ + x₃

POL(g_0(x₁)) = x₁

We have the following set D of usable symbols: {F₁₀₁}
The following Dependency Pairs can be deleted as they contain symbols in their lhs which do not occur in D:

F₁₀₁(g₁(x), y, z) -> F₁₀₁(x, y, z)
F₁₀₁(x, g₀(y), z) -> F₁₀₁(x, y, z)

No Rules can be deleted.

After the removal, there are no SCCs in the dependency graph which results in no DP problems which have to be solved.

     ↳DPs

       →DP Problem 1

         ↳Neg POLO

           →DP Problem 2

             ↳SemLab

...

               →DP Problem 10

                 ↳Modular Removal of Rules

Dependency Pairs:

F₀₁₀(g₀(x), y, z) -> F₀₁₀(x, y, z)
F₀₁₀(x, g₁(y), z) -> F₀₁₀(x, y, z)

Rules:

f₀₁₀(0, 1, x) -> f₀₀₀(g₀(x), g₀(x), x)
f₀₁₀(g₀(x), y, z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, g₁(y), z) -> g₁(f₀₁₀(x, y, z))
f₀₁₀(x, y, g₀(z)) -> g₁(f₀₁₀(x, y, z))
f₀₀₀(g₀(x), y, z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, g₀(y), z) -> g₁(f₀₀₀(x, y, z))
f₀₀₀(x, y, g₀(z)) -> g₁(f₀₀₀(x, y, z))
f₀₁₁(0, 1, x) -> f₁₁₁(g₁(x), g₁(x), x)
f₀₁₁(g₀(x), y, z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, g₁(y), z) -> g₁(f₀₁₁(x, y, z))
f₀₁₁(x, y, g₁(z)) -> g₁(f₀₁₁(x, y, z))
f₁₁₁(g₁(x), y, z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, g₁(y), z) -> g₁(f₁₁₁(x, y, z))
f₁₁₁(x, y, g₁(z)) -> g₁(f₁₁₁(x, y, z))
f₀₀₁(g₀(x), y, z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, g₀(y), z) -> g₁(f₀₀₁(x, y, z))
f₀₀₁(x, y, g₁(z)) -> g₁(f₀₀₁(x, y, z))
f₁₀₀(g₁(x), y, z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, g₀(y), z) -> g₁(f₁₀₀(x, y, z))
f₁₀₀(x, y, g₀(z)) -> g₁(f₁₀₀(x, y, z))
f₁₀₁(g₁(x), y, z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, g₀(y), z) -> g₁(f₁₀₁(x, y, z))
f₁₀₁(x, y, g₁(z)) -> g₁(f₁₀₁(x, y, z))
f₁₁₀(g₁(x), y, z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, g₁(y), z) -> g₁(f₁₁₀(x, y, z))
f₁₁₀(x, y, g₀(z)) -> g₁(f₁₁₀(x, y, z))

We have the following set of usable rules: none
To remove rules and DPs from this DP problem we used the following monotonic and C_E-compatible order: Polynomial ordering.
Polynomial interpretation:

POL(F_010(x₁, x₂, x₃)) = x₁ + x₂ + x₃

POL(g_1(x₁)) = x₁

POL(g_0(x₁)) = x₁

We have the following set D of usable symbols: {F₀₁₀}
The following Dependency Pairs can be deleted as they contain symbols in their lhs which do not occur in D:

F₀₁₀(g₀(x), y, z) -> F₀₁₀(x, y, z)
F₀₁₀(x, g₁(y), z) -> F₀₁₀(x, y, z)

No Rules can be deleted.

After the removal, there are no SCCs in the dependency graph which results in no DP problems which have to be solved.

Termination of R successfully shown.
Duration:
0:07 minutes

f(x₀, x₁, x₂)	= 1
g(x₀)	= x₀
F(x₀, x₁, x₂)	= 1 + x₂
0	= 0
1	= 1

POL(F_111(x₁, x₂, x₃))	= x₁ + x₂ + x₃
POL(g_1(x₁))	= x₁

POL(F_100(x₁, x₂, x₃))	= x₁ + x₂ + x₃
POL(g_1(x₁))	= x₁
POL(g_0(x₁))	= x₁

POL(g_1(x₁))	= x₁
POL(F_011(x₁, x₂, x₃))	= x₁ + x₂ + x₃
POL(g_0(x₁))	= x₁

POL(g_1(x₁))	= x₁
POL(F_110(x₁, x₂, x₃))	= x₁ + x₂ + x₃

POL(F_001(x₁, x₂, x₃))	= x₁ + x₂ + x₃
POL(g_0(x₁))	= x₁

POL(F_000(x₁, x₂, x₃))	= x₁ + x₂ + x₃
POL(g_0(x₁))	= x₁

POL(g_1(x₁))	= x₁
POL(F_101(x₁, x₂, x₃))	= x₁ + x₂ + x₃
POL(g_0(x₁))	= x₁

POL(F_010(x₁, x₂, x₃))	= x₁ + x₂ + x₃
POL(g_1(x₁))	= x₁
POL(g_0(x₁))	= x₁