*** 1 Progress [(O(1),O(n^1))] ***
Considered Problem:
Strict DP Rules:
Strict TRS Rules:
implies(x,or(y,z)) -> or(y,implies(x,z))
implies(not(x),y) -> or(x,y)
implies(not(x),or(y,z)) -> implies(y,or(x,z))
Weak DP Rules:
Weak TRS Rules:
Signature:
{implies/2} / {not/1,or/2}
Obligation:
Full
basic terms: {implies}/{not,or}
Applied Processor:
ToInnermost
Proof:
switch to innermost, as the system is overlay and right linear and does not contain weak rules
*** 1.1 Progress [(O(1),O(n^1))] ***
Considered Problem:
Strict DP Rules:
Strict TRS Rules:
implies(x,or(y,z)) -> or(y,implies(x,z))
implies(not(x),y) -> or(x,y)
implies(not(x),or(y,z)) -> implies(y,or(x,z))
Weak DP Rules:
Weak TRS Rules:
Signature:
{implies/2} / {not/1,or/2}
Obligation:
Innermost
basic terms: {implies}/{not,or}
Applied Processor:
WeightGap {wgDimension = 1, wgDegree = 1, wgKind = Algebraic, wgUArgs = UArgs, wgOn = WgOnAny}
Proof:
The weightgap principle applies using the following nonconstant growth matrix-interpretation:
We apply a matrix interpretation of kind constructor based matrix interpretation:
The following argument positions are considered usable:
uargs(or) = {2}
Following symbols are considered usable:
{}
TcT has computed the following interpretation:
p(implies) = [2] x2 + [7]
p(not) = [1] x1 + [0]
p(or) = [1] x2 + [0]
Following rules are strictly oriented:
implies(not(x),y) = [2] y + [7]
> [1] y + [0]
= or(x,y)
Following rules are (at-least) weakly oriented:
implies(x,or(y,z)) = [2] z + [7]
>= [2] z + [7]
= or(y,implies(x,z))
implies(not(x),or(y,z)) = [2] z + [7]
>= [2] z + [7]
= implies(y,or(x,z))
Further, it can be verified that all rules not oriented are covered by the weightgap condition.
*** 1.1.1 Progress [(O(1),O(n^1))] ***
Considered Problem:
Strict DP Rules:
Strict TRS Rules:
implies(x,or(y,z)) -> or(y,implies(x,z))
implies(not(x),or(y,z)) -> implies(y,or(x,z))
Weak DP Rules:
Weak TRS Rules:
implies(not(x),y) -> or(x,y)
Signature:
{implies/2} / {not/1,or/2}
Obligation:
Innermost
basic terms: {implies}/{not,or}
Applied Processor:
NaturalMI {miDimension = 1, miDegree = 1, miKind = Algebraic, uargs = UArgs, urules = URules, selector = Just any strict-rules, greedy = NoGreedy}
Proof:
We apply a matrix interpretation of kind constructor based matrix interpretation:
The following argument positions are considered usable:
uargs(or) = {2}
Following symbols are considered usable:
{implies}
TcT has computed the following interpretation:
p(implies) = [2] x2 + [6]
p(not) = [0]
p(or) = [1] x2 + [6]
Following rules are strictly oriented:
implies(x,or(y,z)) = [2] z + [18]
> [2] z + [12]
= or(y,implies(x,z))
Following rules are (at-least) weakly oriented:
implies(not(x),y) = [2] y + [6]
>= [1] y + [6]
= or(x,y)
implies(not(x),or(y,z)) = [2] z + [18]
>= [2] z + [18]
= implies(y,or(x,z))
*** 1.1.1.1 Progress [(O(1),O(n^1))] ***
Considered Problem:
Strict DP Rules:
Strict TRS Rules:
implies(not(x),or(y,z)) -> implies(y,or(x,z))
Weak DP Rules:
Weak TRS Rules:
implies(x,or(y,z)) -> or(y,implies(x,z))
implies(not(x),y) -> or(x,y)
Signature:
{implies/2} / {not/1,or/2}
Obligation:
Innermost
basic terms: {implies}/{not,or}
Applied Processor:
WeightGap {wgDimension = 1, wgDegree = 1, wgKind = Algebraic, wgUArgs = UArgs, wgOn = WgOnAny}
Proof:
The weightgap principle applies using the following nonconstant growth matrix-interpretation:
We apply a matrix interpretation of kind constructor based matrix interpretation:
The following argument positions are considered usable:
uargs(or) = {2}
Following symbols are considered usable:
{}
TcT has computed the following interpretation:
p(implies) = [1] x1 + [1] x2 + [0]
p(not) = [1] x1 + [2]
p(or) = [1] x1 + [1] x2 + [1]
Following rules are strictly oriented:
implies(not(x),or(y,z)) = [1] x + [1] y + [1] z + [3]
> [1] x + [1] y + [1] z + [1]
= implies(y,or(x,z))
Following rules are (at-least) weakly oriented:
implies(x,or(y,z)) = [1] x + [1] y + [1] z + [1]
>= [1] x + [1] y + [1] z + [1]
= or(y,implies(x,z))
implies(not(x),y) = [1] x + [1] y + [2]
>= [1] x + [1] y + [1]
= or(x,y)
Further, it can be verified that all rules not oriented are covered by the weightgap condition.
*** 1.1.1.1.1 Progress [(O(1),O(1))] ***
Considered Problem:
Strict DP Rules:
Strict TRS Rules:
Weak DP Rules:
Weak TRS Rules:
implies(x,or(y,z)) -> or(y,implies(x,z))
implies(not(x),y) -> or(x,y)
implies(not(x),or(y,z)) -> implies(y,or(x,z))
Signature:
{implies/2} / {not/1,or/2}
Obligation:
Innermost
basic terms: {implies}/{not,or}
Applied Processor:
EmptyProcessor
Proof:
The problem is already closed. The intended complexity is O(1).