MAYBE
We are left with following problem, upon which TcT provides the
certificate MAYBE.
Strict Trs:
{ 0(#()) -> #()
, +(x, #()) -> x
, +(0(x), 0(y)) -> 0(+(x, y))
, +(0(x), 1(y)) -> 1(+(x, y))
, +(#(), x) -> x
, +(1(x), 0(y)) -> 1(+(x, y))
, +(1(x), 1(y)) -> 0(+(+(x, y), 1(#())))
, *(0(x), y) -> 0(*(x, y))
, *(#(), x) -> #()
, *(1(x), y) -> +(0(*(x, y)), y)
, sum(nil()) -> 0(#())
, sum(cons(x, l)) -> +(x, sum(l))
, prod(nil()) -> 1(#())
, prod(cons(x, l)) -> *(x, prod(l)) }
Obligation:
runtime complexity
Answer:
MAYBE
None of the processors succeeded.
Details of failed attempt(s):
-----------------------------
1) 'WithProblem (timeout of 60 seconds)' failed due to the
following reason:
Computation stopped due to timeout after 60.0 seconds.
2) 'Best' failed due to the following reason:
None of the processors succeeded.
Details of failed attempt(s):
-----------------------------
1) 'WithProblem (timeout of 30 seconds) (timeout of 60 seconds)'
failed due to the following reason:
Computation stopped due to timeout after 30.0 seconds.
2) 'Fastest (timeout of 5 seconds) (timeout of 60 seconds)' failed
due to the following reason:
None of the processors succeeded.
Details of failed attempt(s):
-----------------------------
1) 'Bounds with minimal-enrichment and initial automaton 'match''
failed due to the following reason:
match-boundness of the problem could not be verified.
2) 'Bounds with perSymbol-enrichment and initial automaton 'match''
failed due to the following reason:
match-boundness of the problem could not be verified.
3) 'Best' failed due to the following reason:
None of the processors succeeded.
Details of failed attempt(s):
-----------------------------
1) 'Polynomial Path Order (PS) (timeout of 60 seconds)' failed due
to the following reason:
The processor is inapplicable, reason:
Processor only applicable for innermost runtime complexity analysis
2) 'bsearch-popstar (timeout of 60 seconds)' failed due to the
following reason:
The processor is inapplicable, reason:
Processor only applicable for innermost runtime complexity analysis
3) 'Innermost Weak Dependency Pairs (timeout of 60 seconds)' failed
due to the following reason:
We add the following weak dependency pairs:
Strict DPs:
{ 0^#(#()) -> c_1()
, +^#(x, #()) -> c_2(x)
, +^#(0(x), 0(y)) -> c_3(0^#(+(x, y)))
, +^#(0(x), 1(y)) -> c_4(+^#(x, y))
, +^#(#(), x) -> c_5(x)
, +^#(1(x), 0(y)) -> c_6(+^#(x, y))
, +^#(1(x), 1(y)) -> c_7(0^#(+(+(x, y), 1(#()))))
, *^#(0(x), y) -> c_8(0^#(*(x, y)))
, *^#(#(), x) -> c_9()
, *^#(1(x), y) -> c_10(+^#(0(*(x, y)), y))
, sum^#(nil()) -> c_11(0^#(#()))
, sum^#(cons(x, l)) -> c_12(+^#(x, sum(l)))
, prod^#(nil()) -> c_13()
, prod^#(cons(x, l)) -> c_14(*^#(x, prod(l))) }
and mark the set of starting terms.
We are left with following problem, upon which TcT provides the
certificate MAYBE.
Strict DPs:
{ 0^#(#()) -> c_1()
, +^#(x, #()) -> c_2(x)
, +^#(0(x), 0(y)) -> c_3(0^#(+(x, y)))
, +^#(0(x), 1(y)) -> c_4(+^#(x, y))
, +^#(#(), x) -> c_5(x)
, +^#(1(x), 0(y)) -> c_6(+^#(x, y))
, +^#(1(x), 1(y)) -> c_7(0^#(+(+(x, y), 1(#()))))
, *^#(0(x), y) -> c_8(0^#(*(x, y)))
, *^#(#(), x) -> c_9()
, *^#(1(x), y) -> c_10(+^#(0(*(x, y)), y))
, sum^#(nil()) -> c_11(0^#(#()))
, sum^#(cons(x, l)) -> c_12(+^#(x, sum(l)))
, prod^#(nil()) -> c_13()
, prod^#(cons(x, l)) -> c_14(*^#(x, prod(l))) }
Strict Trs:
{ 0(#()) -> #()
, +(x, #()) -> x
, +(0(x), 0(y)) -> 0(+(x, y))
, +(0(x), 1(y)) -> 1(+(x, y))
, +(#(), x) -> x
, +(1(x), 0(y)) -> 1(+(x, y))
, +(1(x), 1(y)) -> 0(+(+(x, y), 1(#())))
, *(0(x), y) -> 0(*(x, y))
, *(#(), x) -> #()
, *(1(x), y) -> +(0(*(x, y)), y)
, sum(nil()) -> 0(#())
, sum(cons(x, l)) -> +(x, sum(l))
, prod(nil()) -> 1(#())
, prod(cons(x, l)) -> *(x, prod(l)) }
Obligation:
runtime complexity
Answer:
MAYBE
We estimate the number of application of {1,9,13} by applications
of Pre({1,9,13}) = {2,3,5,7,8,11,14}. Here rules are labeled as
follows:
DPs:
{ 1: 0^#(#()) -> c_1()
, 2: +^#(x, #()) -> c_2(x)
, 3: +^#(0(x), 0(y)) -> c_3(0^#(+(x, y)))
, 4: +^#(0(x), 1(y)) -> c_4(+^#(x, y))
, 5: +^#(#(), x) -> c_5(x)
, 6: +^#(1(x), 0(y)) -> c_6(+^#(x, y))
, 7: +^#(1(x), 1(y)) -> c_7(0^#(+(+(x, y), 1(#()))))
, 8: *^#(0(x), y) -> c_8(0^#(*(x, y)))
, 9: *^#(#(), x) -> c_9()
, 10: *^#(1(x), y) -> c_10(+^#(0(*(x, y)), y))
, 11: sum^#(nil()) -> c_11(0^#(#()))
, 12: sum^#(cons(x, l)) -> c_12(+^#(x, sum(l)))
, 13: prod^#(nil()) -> c_13()
, 14: prod^#(cons(x, l)) -> c_14(*^#(x, prod(l))) }
We are left with following problem, upon which TcT provides the
certificate MAYBE.
Strict DPs:
{ +^#(x, #()) -> c_2(x)
, +^#(0(x), 0(y)) -> c_3(0^#(+(x, y)))
, +^#(0(x), 1(y)) -> c_4(+^#(x, y))
, +^#(#(), x) -> c_5(x)
, +^#(1(x), 0(y)) -> c_6(+^#(x, y))
, +^#(1(x), 1(y)) -> c_7(0^#(+(+(x, y), 1(#()))))
, *^#(0(x), y) -> c_8(0^#(*(x, y)))
, *^#(1(x), y) -> c_10(+^#(0(*(x, y)), y))
, sum^#(nil()) -> c_11(0^#(#()))
, sum^#(cons(x, l)) -> c_12(+^#(x, sum(l)))
, prod^#(cons(x, l)) -> c_14(*^#(x, prod(l))) }
Strict Trs:
{ 0(#()) -> #()
, +(x, #()) -> x
, +(0(x), 0(y)) -> 0(+(x, y))
, +(0(x), 1(y)) -> 1(+(x, y))
, +(#(), x) -> x
, +(1(x), 0(y)) -> 1(+(x, y))
, +(1(x), 1(y)) -> 0(+(+(x, y), 1(#())))
, *(0(x), y) -> 0(*(x, y))
, *(#(), x) -> #()
, *(1(x), y) -> +(0(*(x, y)), y)
, sum(nil()) -> 0(#())
, sum(cons(x, l)) -> +(x, sum(l))
, prod(nil()) -> 1(#())
, prod(cons(x, l)) -> *(x, prod(l)) }
Weak DPs:
{ 0^#(#()) -> c_1()
, *^#(#(), x) -> c_9()
, prod^#(nil()) -> c_13() }
Obligation:
runtime complexity
Answer:
MAYBE
We estimate the number of application of {2,6,7,9} by applications
of Pre({2,6,7,9}) = {1,3,4,5,8,10,11}. Here rules are labeled as
follows:
DPs:
{ 1: +^#(x, #()) -> c_2(x)
, 2: +^#(0(x), 0(y)) -> c_3(0^#(+(x, y)))
, 3: +^#(0(x), 1(y)) -> c_4(+^#(x, y))
, 4: +^#(#(), x) -> c_5(x)
, 5: +^#(1(x), 0(y)) -> c_6(+^#(x, y))
, 6: +^#(1(x), 1(y)) -> c_7(0^#(+(+(x, y), 1(#()))))
, 7: *^#(0(x), y) -> c_8(0^#(*(x, y)))
, 8: *^#(1(x), y) -> c_10(+^#(0(*(x, y)), y))
, 9: sum^#(nil()) -> c_11(0^#(#()))
, 10: sum^#(cons(x, l)) -> c_12(+^#(x, sum(l)))
, 11: prod^#(cons(x, l)) -> c_14(*^#(x, prod(l)))
, 12: 0^#(#()) -> c_1()
, 13: *^#(#(), x) -> c_9()
, 14: prod^#(nil()) -> c_13() }
We are left with following problem, upon which TcT provides the
certificate MAYBE.
Strict DPs:
{ +^#(x, #()) -> c_2(x)
, +^#(0(x), 1(y)) -> c_4(+^#(x, y))
, +^#(#(), x) -> c_5(x)
, +^#(1(x), 0(y)) -> c_6(+^#(x, y))
, *^#(1(x), y) -> c_10(+^#(0(*(x, y)), y))
, sum^#(cons(x, l)) -> c_12(+^#(x, sum(l)))
, prod^#(cons(x, l)) -> c_14(*^#(x, prod(l))) }
Strict Trs:
{ 0(#()) -> #()
, +(x, #()) -> x
, +(0(x), 0(y)) -> 0(+(x, y))
, +(0(x), 1(y)) -> 1(+(x, y))
, +(#(), x) -> x
, +(1(x), 0(y)) -> 1(+(x, y))
, +(1(x), 1(y)) -> 0(+(+(x, y), 1(#())))
, *(0(x), y) -> 0(*(x, y))
, *(#(), x) -> #()
, *(1(x), y) -> +(0(*(x, y)), y)
, sum(nil()) -> 0(#())
, sum(cons(x, l)) -> +(x, sum(l))
, prod(nil()) -> 1(#())
, prod(cons(x, l)) -> *(x, prod(l)) }
Weak DPs:
{ 0^#(#()) -> c_1()
, +^#(0(x), 0(y)) -> c_3(0^#(+(x, y)))
, +^#(1(x), 1(y)) -> c_7(0^#(+(+(x, y), 1(#()))))
, *^#(0(x), y) -> c_8(0^#(*(x, y)))
, *^#(#(), x) -> c_9()
, sum^#(nil()) -> c_11(0^#(#()))
, prod^#(nil()) -> c_13() }
Obligation:
runtime complexity
Answer:
MAYBE
Empty strict component of the problem is NOT empty.
Arrrr..