We consider the following Problem:
Strict Trs:
{ *(x, *(y, z)) -> *(*(x, y), z)
, *(x, x) -> x}
StartTerms: basic terms
Strategy: innermost
Certificate: YES(?,O(n^1))
Proof:
We consider the following Problem:
Strict Trs:
{ *(x, *(y, z)) -> *(*(x, y), z)
, *(x, x) -> x}
StartTerms: basic terms
Strategy: innermost
Certificate: YES(?,O(n^1))
Proof:
The weightgap principle applies, where following rules are oriented strictly:
TRS Component: {*(x, x) -> x}
Interpretation of nonconstant growth:
-------------------------------------
The following argument positions are usable:
Uargs(*) = {1}
We have the following EDA-non-satisfying and IDA(1)-non-satisfying matrix interpretation:
Interpretation Functions:
*(x1, x2) = [1 0] x1 + [0 0] x2 + [1]
[0 1] [0 0] [1]
The strictly oriented rules are moved into the weak component.
We consider the following Problem:
Strict Trs: {*(x, *(y, z)) -> *(*(x, y), z)}
Weak Trs: {*(x, x) -> x}
StartTerms: basic terms
Strategy: innermost
Certificate: YES(?,O(n^1))
Proof:
The weightgap principle applies, where following rules are oriented strictly:
TRS Component: {*(x, *(y, z)) -> *(*(x, y), z)}
Interpretation of nonconstant growth:
-------------------------------------
The following argument positions are usable:
Uargs(*) = {1}
We have the following EDA-non-satisfying and IDA(1)-non-satisfying matrix interpretation:
Interpretation Functions:
*(x1, x2) = [1 0] x1 + [0 1] x2 + [0]
[0 1] [0 1] [2]
The strictly oriented rules are moved into the weak component.
We consider the following Problem:
Weak Trs:
{ *(x, *(y, z)) -> *(*(x, y), z)
, *(x, x) -> x}
StartTerms: basic terms
Strategy: innermost
Certificate: YES(O(1),O(1))
Proof:
We consider the following Problem:
Weak Trs:
{ *(x, *(y, z)) -> *(*(x, y), z)
, *(x, x) -> x}
StartTerms: basic terms
Strategy: innermost
Certificate: YES(O(1),O(1))
Proof:
Empty rules are trivially bounded
Hurray, we answered YES(?,O(n^1))