*** 1 Progress [(O(1),O(n^1))]  ***
    Considered Problem:
      Strict DP Rules:
        
      Strict TRS Rules:
        active(c()) -> mark(d())
        active(g(X)) -> mark(h(X))
        active(h(d())) -> mark(g(c()))
        g(ok(X)) -> ok(g(X))
        h(ok(X)) -> ok(h(X))
        proper(c()) -> ok(c())
        proper(d()) -> ok(d())
        proper(g(X)) -> g(proper(X))
        proper(h(X)) -> h(proper(X))
        top(mark(X)) -> top(proper(X))
        top(ok(X)) -> top(active(X))
      Weak DP Rules:
        
      Weak TRS Rules:
        
      Signature:
        {active/1,g/1,h/1,proper/1,top/1} / {c/0,d/0,mark/1,ok/1}
      Obligation:
        Full
        basic terms: {active,g,h,proper,top}/{c,d,mark,ok}
    Applied Processor:
      Bounds {initialAutomaton = perSymbol, enrichment = match}
    Proof:
      The problem is match-bounded by 4.
      The enriched problem is compatible with follwoing automaton.
        active_0(2) -> 1
        active_0(3) -> 1
        active_0(6) -> 1
        active_0(7) -> 1
        active_1(2) -> 14
        active_1(3) -> 14
        active_1(6) -> 14
        active_1(7) -> 14
        active_2(10) -> 15
        active_2(13) -> 15
        active_3(16) -> 17
        active_4(18) -> 19
        c_0() -> 2
        c_1() -> 13
        d_0() -> 3
        d_1() -> 10
        d_2() -> 16
        d_3() -> 18
        g_0(2) -> 4
        g_0(3) -> 4
        g_0(6) -> 4
        g_0(7) -> 4
        g_1(2) -> 11
        g_1(3) -> 11
        g_1(6) -> 11
        g_1(7) -> 11
        h_0(2) -> 5
        h_0(3) -> 5
        h_0(6) -> 5
        h_0(7) -> 5
        h_1(2) -> 12
        h_1(3) -> 12
        h_1(6) -> 12
        h_1(7) -> 12
        mark_0(2) -> 6
        mark_0(3) -> 6
        mark_0(6) -> 6
        mark_0(7) -> 6
        mark_1(10) -> 1
        mark_1(10) -> 14
        mark_2(16) -> 15
        ok_0(2) -> 7
        ok_0(3) -> 7
        ok_0(6) -> 7
        ok_0(7) -> 7
        ok_1(10) -> 8
        ok_1(10) -> 14
        ok_1(11) -> 4
        ok_1(11) -> 11
        ok_1(12) -> 5
        ok_1(12) -> 12
        ok_1(13) -> 8
        ok_1(13) -> 14
        ok_2(16) -> 15
        ok_3(18) -> 17
        proper_0(2) -> 8
        proper_0(3) -> 8
        proper_0(6) -> 8
        proper_0(7) -> 8
        proper_1(2) -> 14
        proper_1(3) -> 14
        proper_1(6) -> 14
        proper_1(7) -> 14
        proper_2(10) -> 15
        proper_3(16) -> 17
        top_0(2) -> 9
        top_0(3) -> 9
        top_0(6) -> 9
        top_0(7) -> 9
        top_1(14) -> 9
        top_2(15) -> 9
        top_3(17) -> 9
        top_4(19) -> 9
*** 1.1 Progress [(O(1),O(1))]  ***
    Considered Problem:
      Strict DP Rules:
        
      Strict TRS Rules:
        
      Weak DP Rules:
        
      Weak TRS Rules:
        active(c()) -> mark(d())
        active(g(X)) -> mark(h(X))
        active(h(d())) -> mark(g(c()))
        g(ok(X)) -> ok(g(X))
        h(ok(X)) -> ok(h(X))
        proper(c()) -> ok(c())
        proper(d()) -> ok(d())
        proper(g(X)) -> g(proper(X))
        proper(h(X)) -> h(proper(X))
        top(mark(X)) -> top(proper(X))
        top(ok(X)) -> top(active(X))
      Signature:
        {active/1,g/1,h/1,proper/1,top/1} / {c/0,d/0,mark/1,ok/1}
      Obligation:
        Full
        basic terms: {active,g,h,proper,top}/{c,d,mark,ok}
    Applied Processor:
      EmptyProcessor
    Proof:
      The problem is already closed. The intended complexity is O(1).