YES(?,O(n^1))
0.00/0.26	YES(?,O(n^1))
0.00/0.26	
0.00/0.26	We are left with following problem, upon which TcT provides the
0.00/0.26	certificate YES(?,O(n^1)).
0.00/0.26	
0.00/0.26	Strict Trs:
0.00/0.26	  { a__g(X) -> a__h(X)
0.00/0.26	  , a__g(X) -> g(X)
0.00/0.26	  , a__h(X) -> h(X)
0.00/0.26	  , a__h(d()) -> a__g(c())
0.00/0.26	  , a__c() -> d()
0.00/0.26	  , a__c() -> c()
0.00/0.26	  , mark(d()) -> d()
0.00/0.26	  , mark(c()) -> a__c()
0.00/0.26	  , mark(g(X)) -> a__g(X)
0.00/0.26	  , mark(h(X)) -> a__h(X) }
0.00/0.26	Obligation:
0.00/0.26	  innermost runtime complexity
0.00/0.26	Answer:
0.00/0.26	  YES(?,O(n^1))
0.00/0.26	
0.00/0.26	The problem is match-bounded by 3. The enriched problem is
0.00/0.26	compatible with the following automaton.
0.00/0.26	{ a__g_0(4) -> 1
0.00/0.26	, a__g_0(5) -> 1
0.00/0.26	, a__g_0(7) -> 1
0.00/0.26	, a__g_0(8) -> 1
0.00/0.26	, a__g_1(4) -> 6
0.00/0.26	, a__g_1(5) -> 6
0.00/0.26	, a__g_1(7) -> 6
0.00/0.26	, a__g_1(8) -> 6
0.00/0.26	, a__g_1(9) -> 1
0.00/0.26	, a__g_1(9) -> 2
0.00/0.26	, a__g_1(9) -> 6
0.00/0.26	, a__h_0(4) -> 2
0.00/0.26	, a__h_0(5) -> 2
0.00/0.26	, a__h_0(7) -> 2
0.00/0.26	, a__h_0(8) -> 2
0.00/0.26	, a__h_1(4) -> 1
0.00/0.26	, a__h_1(4) -> 6
0.00/0.26	, a__h_1(5) -> 1
0.00/0.26	, a__h_1(5) -> 6
0.00/0.26	, a__h_1(7) -> 1
0.00/0.26	, a__h_1(7) -> 6
0.00/0.26	, a__h_1(8) -> 1
0.00/0.26	, a__h_1(8) -> 6
0.00/0.26	, a__h_2(4) -> 6
0.00/0.26	, a__h_2(5) -> 6
0.00/0.26	, a__h_2(7) -> 6
0.00/0.26	, a__h_2(8) -> 6
0.00/0.26	, a__h_2(9) -> 1
0.00/0.26	, a__h_2(9) -> 2
0.00/0.26	, a__h_2(9) -> 6
0.00/0.26	, a__c_0() -> 3
0.00/0.26	, a__c_1() -> 6
0.00/0.26	, d_0() -> 4
0.00/0.26	, d_1() -> 3
0.00/0.26	, d_1() -> 6
0.00/0.26	, d_2() -> 6
0.00/0.26	, c_0() -> 5
0.00/0.26	, c_1() -> 3
0.00/0.26	, c_1() -> 9
0.00/0.26	, c_2() -> 6
0.00/0.26	, mark_0(4) -> 6
0.00/0.26	, mark_0(5) -> 6
0.00/0.26	, mark_0(7) -> 6
0.00/0.26	, mark_0(8) -> 6
0.00/0.26	, g_0(4) -> 7
0.00/0.26	, g_0(5) -> 7
0.00/0.26	, g_0(7) -> 7
0.00/0.26	, g_0(8) -> 7
0.00/0.26	, g_1(4) -> 1
0.00/0.26	, g_1(5) -> 1
0.00/0.26	, g_1(7) -> 1
0.00/0.26	, g_1(8) -> 1
0.00/0.26	, g_2(4) -> 6
0.00/0.26	, g_2(5) -> 6
0.00/0.26	, g_2(7) -> 6
0.00/0.26	, g_2(8) -> 6
0.00/0.26	, g_2(9) -> 1
0.00/0.26	, g_2(9) -> 2
0.00/0.26	, g_2(9) -> 6
0.00/0.26	, h_0(4) -> 8
0.00/0.26	, h_0(5) -> 8
0.00/0.26	, h_0(7) -> 8
0.00/0.26	, h_0(8) -> 8
0.00/0.26	, h_1(4) -> 2
0.00/0.26	, h_1(5) -> 2
0.00/0.26	, h_1(7) -> 2
0.00/0.26	, h_1(8) -> 2
0.00/0.26	, h_2(4) -> 1
0.00/0.26	, h_2(4) -> 6
0.00/0.26	, h_2(5) -> 1
0.00/0.26	, h_2(5) -> 6
0.00/0.26	, h_2(7) -> 1
0.00/0.26	, h_2(7) -> 6
0.00/0.26	, h_2(8) -> 1
0.00/0.26	, h_2(8) -> 6
0.00/0.26	, h_3(4) -> 6
0.00/0.26	, h_3(5) -> 6
0.00/0.26	, h_3(7) -> 6
0.00/0.26	, h_3(8) -> 6
0.00/0.26	, h_3(9) -> 1
0.00/0.26	, h_3(9) -> 2
0.00/0.26	, h_3(9) -> 6 }
0.00/0.26	
0.00/0.26	Hurray, we answered YES(?,O(n^1))
0.00/0.27	EOF