* Step 1: Sum WORST_CASE(Omega(n^1),?)
+ Considered Problem:
- Strict TRS:
a____(X,nil()) -> mark(X)
a____(X1,X2) -> __(X1,X2)
a____(__(X,Y),Z) -> a____(mark(X),a____(mark(Y),mark(Z)))
a____(nil(),X) -> mark(X)
a__and(X1,X2) -> and(X1,X2)
a__and(tt(),X) -> mark(X)
a__isNePal(X) -> isNePal(X)
a__isNePal(__(I,__(P,I))) -> tt()
mark(__(X1,X2)) -> a____(mark(X1),mark(X2))
mark(and(X1,X2)) -> a__and(mark(X1),X2)
mark(isNePal(X)) -> a__isNePal(mark(X))
mark(nil()) -> nil()
mark(tt()) -> tt()
- Signature:
{a____/2,a__and/2,a__isNePal/1,mark/1} / {__/2,and/2,isNePal/1,nil/0,tt/0}
- Obligation:
innermost runtime complexity wrt. defined symbols {a____,a__and,a__isNePal,mark} and constructors {__,and
,isNePal,nil,tt}
+ Applied Processor:
Sum {left = someStrategy, right = someStrategy}
+ Details:
()
* Step 2: DecreasingLoops WORST_CASE(Omega(n^1),?)
+ Considered Problem:
- Strict TRS:
a____(X,nil()) -> mark(X)
a____(X1,X2) -> __(X1,X2)
a____(__(X,Y),Z) -> a____(mark(X),a____(mark(Y),mark(Z)))
a____(nil(),X) -> mark(X)
a__and(X1,X2) -> and(X1,X2)
a__and(tt(),X) -> mark(X)
a__isNePal(X) -> isNePal(X)
a__isNePal(__(I,__(P,I))) -> tt()
mark(__(X1,X2)) -> a____(mark(X1),mark(X2))
mark(and(X1,X2)) -> a__and(mark(X1),X2)
mark(isNePal(X)) -> a__isNePal(mark(X))
mark(nil()) -> nil()
mark(tt()) -> tt()
- Signature:
{a____/2,a__and/2,a__isNePal/1,mark/1} / {__/2,and/2,isNePal/1,nil/0,tt/0}
- Obligation:
innermost runtime complexity wrt. defined symbols {a____,a__and,a__isNePal,mark} and constructors {__,and
,isNePal,nil,tt}
+ Applied Processor:
DecreasingLoops {bound = AnyLoop, narrow = 10}
+ Details:
The system has following decreasing Loops:
mark(x){x -> __(x,y)} =
mark(__(x,y)) ->^+ a____(mark(x),mark(y))
= C[mark(x) = mark(x){}]
WORST_CASE(Omega(n^1),?)