We consider the TRS containing the following rules:
Ap(Ap(Ap(S,x),y),z) | → | Ap(Ap(x,z),Ap(y,z)) | (1) |
Ap(Ap(K,x),y) | → | x | (2) |
Ap(I,x) | → | x | (3) |
Dh(z,z) | → | z | (4) |
The underlying signature is as follows:
{Ap/2, S/0, K/0, I/0, Dh/2}Ap | : | 1 ⨯ 1 → 1 |
S | : | 1 |
K | : | 1 |
I | : | 1 |
Dh | : | 0 ⨯ 0 → 0 |
Dh(z,z) | → | z | (4) |
Ap(Ap(Ap(S,x),y),z) | → | Ap(Ap(x,z),Ap(y,z)) | (1) |
Ap(Ap(K,x),y) | → | x | (2) |
Ap(I,x) | → | x | (3) |
To prove that the TRS is (non-)confluent, we show (non-)confluence of the following modified system:
Dh(z,z) | → | z | (4) |
All redundant rules that were added or removed can be simulated in 2 steps .
[Dh(x1, x2)] | = | 1 · x1 + 2 · x2 + 2 |
Dh(z,z) | → | z | (4) |
There are no rules in the TRS. Hence, it is terminating.
To prove that the TRS is (non-)confluent, we show (non-)confluence of the following modified system:
Ap(I,x) | → | x | (3) |
Ap(Ap(K,x),y) | → | x | (2) |
Ap(Ap(Ap(S,x),y),z) | → | Ap(Ap(x,z),Ap(y,z)) | (1) |
All redundant rules that were added or removed can be simulated in 2 steps .
Confluence is proven using the following terminating critical-pair-closing-system R:
There are no rules.
There are no rules in the TRS. Hence, it is terminating.