* Step 1: Sum WORST_CASE(?,O(n^2))
+ Considered Problem:
- Strict TRS:
fac(0()) -> s(0())
fac(s(x)) -> times(s(x),fac(p(s(x))))
p(s(x)) -> x
- Signature:
{fac/1,p/1} / {0/0,s/1,times/2}
- Obligation:
innermost runtime complexity wrt. defined symbols {fac,p} and constructors {0,s,times}
+ Applied Processor:
Sum {left = someStrategy, right = someStrategy}
+ Details:
()
* Step 2: WeightGap WORST_CASE(?,O(n^2))
+ Considered Problem:
- Strict TRS:
fac(0()) -> s(0())
fac(s(x)) -> times(s(x),fac(p(s(x))))
p(s(x)) -> x
- Signature:
{fac/1,p/1} / {0/0,s/1,times/2}
- Obligation:
innermost runtime complexity wrt. defined symbols {fac,p} and constructors {0,s,times}
+ Applied Processor:
WeightGap {wgDimension = 1, wgDegree = 1, wgKind = Algebraic, wgUArgs = UArgs, wgOn = WgOnAny}
+ Details:
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(fac) = {1},
uargs(times) = {2}
Following symbols are considered usable:
all
TcT has computed the following interpretation:
p(0) = [0]
p(fac) = [1] x1 + [0]
p(p) = [1] x1 + [3]
p(s) = [1] x1 + [0]
p(times) = [1] x2 + [0]
Following rules are strictly oriented:
p(s(x)) = [1] x + [3]
> [1] x + [0]
= x
Following rules are (at-least) weakly oriented:
fac(0()) = [0]
>= [0]
= s(0())
fac(s(x)) = [1] x + [0]
>= [1] x + [3]
= times(s(x),fac(p(s(x))))
Further, it can be verified that all rules not oriented are covered by the weightgap condition.
* Step 3: WeightGap WORST_CASE(?,O(n^2))
+ Considered Problem:
- Strict TRS:
fac(0()) -> s(0())
fac(s(x)) -> times(s(x),fac(p(s(x))))
- Weak TRS:
p(s(x)) -> x
- Signature:
{fac/1,p/1} / {0/0,s/1,times/2}
- Obligation:
innermost runtime complexity wrt. defined symbols {fac,p} and constructors {0,s,times}
+ Applied Processor:
WeightGap {wgDimension = 1, wgDegree = 1, wgKind = Algebraic, wgUArgs = UArgs, wgOn = WgOnAny}
+ Details:
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(fac) = {1},
uargs(times) = {2}
Following symbols are considered usable:
all
TcT has computed the following interpretation:
p(0) = [0]
p(fac) = [1] x1 + [2]
p(p) = [1] x1 + [0]
p(s) = [1] x1 + [0]
p(times) = [1] x2 + [13]
Following rules are strictly oriented:
fac(0()) = [2]
> [0]
= s(0())
Following rules are (at-least) weakly oriented:
fac(s(x)) = [1] x + [2]
>= [1] x + [15]
= times(s(x),fac(p(s(x))))
p(s(x)) = [1] x + [0]
>= [1] x + [0]
= x
Further, it can be verified that all rules not oriented are covered by the weightgap condition.
* Step 4: MI WORST_CASE(?,O(n^2))
+ Considered Problem:
- Strict TRS:
fac(s(x)) -> times(s(x),fac(p(s(x))))
- Weak TRS:
fac(0()) -> s(0())
p(s(x)) -> x
- Signature:
{fac/1,p/1} / {0/0,s/1,times/2}
- Obligation:
innermost runtime complexity wrt. defined symbols {fac,p} and constructors {0,s,times}
+ Applied Processor:
MI {miKind = MaximalMatrix (UpperTriangular (Multiplicity (Just 2))), miDimension = 3, miUArgs = UArgs, miURules = URules, miSelector = Just any strict-rules}
+ Details:
We apply a matrix interpretation of kind MaximalMatrix (UpperTriangular (Multiplicity (Just 2))):
The following argument positions are considered usable:
uargs(fac) = {1},
uargs(times) = {2}
Following symbols are considered usable:
{fac,p}
TcT has computed the following interpretation:
p(0) = [4]
[2]
[0]
p(fac) = [2 0 2] [7]
[0 0 0] x_1 + [6]
[0 0 0] [5]
p(p) = [1 0 0] [0]
[4 0 1] x_1 + [0]
[0 1 0] [0]
p(s) = [1 1 2] [0]
[0 0 1] x_1 + [0]
[0 0 1] [4]
p(times) = [1 0 1] [1]
[0 0 0] x_2 + [3]
[0 0 0] [5]
Following rules are strictly oriented:
fac(s(x)) = [2 2 6] [15]
[0 0 0] x + [6]
[0 0 0] [5]
> [2 2 6] [13]
[0 0 0] x + [3]
[0 0 0] [5]
= times(s(x),fac(p(s(x))))
Following rules are (at-least) weakly oriented:
fac(0()) = [15]
[6]
[5]
>= [6]
[0]
[4]
= s(0())
p(s(x)) = [1 1 2] [0]
[4 4 9] x + [4]
[0 0 1] [0]
>= [1 0 0] [0]
[0 1 0] x + [0]
[0 0 1] [0]
= x
* Step 5: EmptyProcessor WORST_CASE(?,O(1))
+ Considered Problem:
- Weak TRS:
fac(0()) -> s(0())
fac(s(x)) -> times(s(x),fac(p(s(x))))
p(s(x)) -> x
- Signature:
{fac/1,p/1} / {0/0,s/1,times/2}
- Obligation:
innermost runtime complexity wrt. defined symbols {fac,p} and constructors {0,s,times}
+ Applied Processor:
EmptyProcessor
+ Details:
The problem is already closed. The intended complexity is O(1).
WORST_CASE(?,O(n^2))