* Step 1: WeightGap WORST_CASE(?,O(n^1))
    + Considered Problem:
        - Strict TRS:
            U11(tt()) -> tt()
            U21(tt(),V2) -> U22(isList(activate(V2)))
            U22(tt()) -> tt()
            U31(tt()) -> tt()
            U41(tt(),V2) -> U42(isNeList(activate(V2)))
            U42(tt()) -> tt()
            U51(tt(),V2) -> U52(isList(activate(V2)))
            U52(tt()) -> tt()
            U61(tt()) -> tt()
            U71(tt(),P) -> U72(isPal(activate(P)))
            U72(tt()) -> tt()
            U81(tt()) -> tt()
            __(X1,X2) -> n____(X1,X2)
            a() -> n__a()
            activate(X) -> X
            activate(n____(X1,X2)) -> __(X1,X2)
            activate(n__a()) -> a()
            activate(n__e()) -> e()
            activate(n__i()) -> i()
            activate(n__nil()) -> nil()
            activate(n__o()) -> o()
            activate(n__u()) -> u()
            e() -> n__e()
            i() -> n__i()
            isList(V) -> U11(isNeList(activate(V)))
            isList(n____(V1,V2)) -> U21(isList(activate(V1)),activate(V2))
            isList(n__nil()) -> tt()
            isNeList(V) -> U31(isQid(activate(V)))
            isNeList(n____(V1,V2)) -> U41(isList(activate(V1)),activate(V2))
            isNeList(n____(V1,V2)) -> U51(isNeList(activate(V1)),activate(V2))
            isNePal(V) -> U61(isQid(activate(V)))
            isNePal(n____(I,__(P,I))) -> U71(isQid(activate(I)),activate(P))
            isPal(V) -> U81(isNePal(activate(V)))
            isPal(n__nil()) -> tt()
            isQid(n__a()) -> tt()
            isQid(n__e()) -> tt()
            isQid(n__i()) -> tt()
            isQid(n__o()) -> tt()
            isQid(n__u()) -> tt()
            nil() -> n__nil()
            o() -> n__o()
            u() -> n__u()
        - Signature:
            {U11/1,U21/2,U22/1,U31/1,U41/2,U42/1,U51/2,U52/1,U61/1,U71/2,U72/1,U81/1,__/2,a/0,activate/1,e/0,i/0
            ,isList/1,isNeList/1,isNePal/1,isPal/1,isQid/1,nil/0,o/0,u/0} / {n____/2,n__a/0,n__e/0,n__i/0,n__nil/0
            ,n__o/0,n__u/0,tt/0}
        - Obligation:
             runtime complexity wrt. defined symbols {U11,U21,U22,U31,U41,U42,U51,U52,U61,U71,U72,U81,__,a,activate,e,i
            ,isList,isNeList,isNePal,isPal,isQid,nil,o,u} and constructors {n____,n__a,n__e,n__i,n__nil,n__o,n__u,tt}
    + 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(U11) = {1},
            uargs(U21) = {1,2},
            uargs(U22) = {1},
            uargs(U31) = {1},
            uargs(U41) = {1,2},
            uargs(U42) = {1},
            uargs(U51) = {1,2},
            uargs(U52) = {1},
            uargs(U61) = {1},
            uargs(U71) = {1,2},
            uargs(U72) = {1},
            uargs(U81) = {1},
            uargs(activate) = {1},
            uargs(isList) = {1},
            uargs(isNeList) = {1},
            uargs(isNePal) = {1},
            uargs(isPal) = {1},
            uargs(isQid) = {1}
          
          Following symbols are considered usable:
            all
          TcT has computed the following interpretation:
                 p(U11) = [1] x1 + [0]         
                 p(U21) = [1] x1 + [1] x2 + [7]
                 p(U22) = [1] x1 + [0]         
                 p(U31) = [1] x1 + [0]         
                 p(U41) = [1] x1 + [1] x2 + [0]
                 p(U42) = [1] x1 + [0]         
                 p(U51) = [1] x1 + [1] x2 + [0]
                 p(U52) = [1] x1 + [0]         
                 p(U61) = [1] x1 + [0]         
                 p(U71) = [1] x1 + [1] x2 + [3]
                 p(U72) = [1] x1 + [0]         
                 p(U81) = [1] x1 + [0]         
                  p(__) = [1] x1 + [1] x2 + [0]
                   p(a) = [0]                  
            p(activate) = [1] x1 + [0]         
                   p(e) = [0]                  
                   p(i) = [0]                  
              p(isList) = [1] x1 + [0]         
            p(isNeList) = [1] x1 + [0]         
             p(isNePal) = [1] x1 + [0]         
               p(isPal) = [1] x1 + [0]         
               p(isQid) = [1] x1 + [0]         
               p(n____) = [1] x1 + [1] x2 + [0]
                p(n__a) = [0]                  
                p(n__e) = [0]                  
                p(n__i) = [0]                  
              p(n__nil) = [0]                  
                p(n__o) = [0]                  
                p(n__u) = [0]                  
                 p(nil) = [0]                  
                   p(o) = [0]                  
                  p(tt) = [0]                  
                   p(u) = [1]                  
          
          Following rules are strictly oriented:
          U21(tt(),V2) = [1] V2 + [7]             
                       > [1] V2 + [0]             
                       = U22(isList(activate(V2)))
          
           U71(tt(),P) = [1] P + [3]              
                       > [1] P + [0]              
                       = U72(isPal(activate(P)))  
          
                   u() = [1]                      
                       > [0]                      
                       = n__u()                   
          
          
          Following rules are (at-least) weakly oriented:
                          U11(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U22(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U31(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U41(tt(),V2) =  [1] V2 + [0]                            
                                    >= [1] V2 + [0]                            
                                    =  U42(isNeList(activate(V2)))             
          
                          U42(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U51(tt(),V2) =  [1] V2 + [0]                            
                                    >= [1] V2 + [0]                            
                                    =  U52(isList(activate(V2)))               
          
                          U52(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U61(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U72(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U81(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          __(X1,X2) =  [1] X1 + [1] X2 + [0]                   
                                    >= [1] X1 + [1] X2 + [0]                   
                                    =  n____(X1,X2)                            
          
                                a() =  [0]                                     
                                    >= [0]                                     
                                    =  n__a()                                  
          
                        activate(X) =  [1] X + [0]                             
                                    >= [1] X + [0]                             
                                    =  X                                       
          
             activate(n____(X1,X2)) =  [1] X1 + [1] X2 + [0]                   
                                    >= [1] X1 + [1] X2 + [0]                   
                                    =  __(X1,X2)                               
          
                   activate(n__a()) =  [0]                                     
                                    >= [0]                                     
                                    =  a()                                     
          
                   activate(n__e()) =  [0]                                     
                                    >= [0]                                     
                                    =  e()                                     
          
                   activate(n__i()) =  [0]                                     
                                    >= [0]                                     
                                    =  i()                                     
          
                 activate(n__nil()) =  [0]                                     
                                    >= [0]                                     
                                    =  nil()                                   
          
                   activate(n__o()) =  [0]                                     
                                    >= [0]                                     
                                    =  o()                                     
          
                   activate(n__u()) =  [0]                                     
                                    >= [1]                                     
                                    =  u()                                     
          
                                e() =  [0]                                     
                                    >= [0]                                     
                                    =  n__e()                                  
          
                                i() =  [0]                                     
                                    >= [0]                                     
                                    =  n__i()                                  
          
                          isList(V) =  [1] V + [0]                             
                                    >= [1] V + [0]                             
                                    =  U11(isNeList(activate(V)))              
          
               isList(n____(V1,V2)) =  [1] V1 + [1] V2 + [0]                   
                                    >= [1] V1 + [1] V2 + [7]                   
                                    =  U21(isList(activate(V1)),activate(V2))  
          
                   isList(n__nil()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                        isNeList(V) =  [1] V + [0]                             
                                    >= [1] V + [0]                             
                                    =  U31(isQid(activate(V)))                 
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [0]                   
                                    >= [1] V1 + [1] V2 + [0]                   
                                    =  U41(isList(activate(V1)),activate(V2))  
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [0]                   
                                    >= [1] V1 + [1] V2 + [0]                   
                                    =  U51(isNeList(activate(V1)),activate(V2))
          
                         isNePal(V) =  [1] V + [0]                             
                                    >= [1] V + [0]                             
                                    =  U61(isQid(activate(V)))                 
          
          isNePal(n____(I,__(P,I))) =  [2] I + [1] P + [0]                     
                                    >= [1] I + [1] P + [3]                     
                                    =  U71(isQid(activate(I)),activate(P))     
          
                           isPal(V) =  [1] V + [0]                             
                                    >= [1] V + [0]                             
                                    =  U81(isNePal(activate(V)))               
          
                    isPal(n__nil()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__a()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__e()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__i()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__o()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__u()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                              nil() =  [0]                                     
                                    >= [0]                                     
                                    =  n__nil()                                
          
                                o() =  [0]                                     
                                    >= [0]                                     
                                    =  n__o()                                  
          
        Further, it can be verified that all rules not oriented are covered by the weightgap condition.
* Step 2: WeightGap WORST_CASE(?,O(n^1))
    + Considered Problem:
        - Strict TRS:
            U11(tt()) -> tt()
            U22(tt()) -> tt()
            U31(tt()) -> tt()
            U41(tt(),V2) -> U42(isNeList(activate(V2)))
            U42(tt()) -> tt()
            U51(tt(),V2) -> U52(isList(activate(V2)))
            U52(tt()) -> tt()
            U61(tt()) -> tt()
            U72(tt()) -> tt()
            U81(tt()) -> tt()
            __(X1,X2) -> n____(X1,X2)
            a() -> n__a()
            activate(X) -> X
            activate(n____(X1,X2)) -> __(X1,X2)
            activate(n__a()) -> a()
            activate(n__e()) -> e()
            activate(n__i()) -> i()
            activate(n__nil()) -> nil()
            activate(n__o()) -> o()
            activate(n__u()) -> u()
            e() -> n__e()
            i() -> n__i()
            isList(V) -> U11(isNeList(activate(V)))
            isList(n____(V1,V2)) -> U21(isList(activate(V1)),activate(V2))
            isList(n__nil()) -> tt()
            isNeList(V) -> U31(isQid(activate(V)))
            isNeList(n____(V1,V2)) -> U41(isList(activate(V1)),activate(V2))
            isNeList(n____(V1,V2)) -> U51(isNeList(activate(V1)),activate(V2))
            isNePal(V) -> U61(isQid(activate(V)))
            isNePal(n____(I,__(P,I))) -> U71(isQid(activate(I)),activate(P))
            isPal(V) -> U81(isNePal(activate(V)))
            isPal(n__nil()) -> tt()
            isQid(n__a()) -> tt()
            isQid(n__e()) -> tt()
            isQid(n__i()) -> tt()
            isQid(n__o()) -> tt()
            isQid(n__u()) -> tt()
            nil() -> n__nil()
            o() -> n__o()
        - Weak TRS:
            U21(tt(),V2) -> U22(isList(activate(V2)))
            U71(tt(),P) -> U72(isPal(activate(P)))
            u() -> n__u()
        - Signature:
            {U11/1,U21/2,U22/1,U31/1,U41/2,U42/1,U51/2,U52/1,U61/1,U71/2,U72/1,U81/1,__/2,a/0,activate/1,e/0,i/0
            ,isList/1,isNeList/1,isNePal/1,isPal/1,isQid/1,nil/0,o/0,u/0} / {n____/2,n__a/0,n__e/0,n__i/0,n__nil/0
            ,n__o/0,n__u/0,tt/0}
        - Obligation:
             runtime complexity wrt. defined symbols {U11,U21,U22,U31,U41,U42,U51,U52,U61,U71,U72,U81,__,a,activate,e,i
            ,isList,isNeList,isNePal,isPal,isQid,nil,o,u} and constructors {n____,n__a,n__e,n__i,n__nil,n__o,n__u,tt}
    + 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(U11) = {1},
            uargs(U21) = {1,2},
            uargs(U22) = {1},
            uargs(U31) = {1},
            uargs(U41) = {1,2},
            uargs(U42) = {1},
            uargs(U51) = {1,2},
            uargs(U52) = {1},
            uargs(U61) = {1},
            uargs(U71) = {1,2},
            uargs(U72) = {1},
            uargs(U81) = {1},
            uargs(activate) = {1},
            uargs(isList) = {1},
            uargs(isNeList) = {1},
            uargs(isNePal) = {1},
            uargs(isPal) = {1},
            uargs(isQid) = {1}
          
          Following symbols are considered usable:
            all
          TcT has computed the following interpretation:
                 p(U11) = [1] x1 + [5]         
                 p(U21) = [1] x1 + [1] x2 + [0]
                 p(U22) = [1] x1 + [0]         
                 p(U31) = [1] x1 + [7]         
                 p(U41) = [1] x1 + [1] x2 + [0]
                 p(U42) = [1] x1 + [7]         
                 p(U51) = [1] x1 + [1] x2 + [0]
                 p(U52) = [1] x1 + [0]         
                 p(U61) = [1] x1 + [0]         
                 p(U71) = [1] x1 + [1] x2 + [0]
                 p(U72) = [1] x1 + [0]         
                 p(U81) = [1] x1 + [0]         
                  p(__) = [1] x1 + [1] x2 + [0]
                   p(a) = [0]                  
            p(activate) = [1] x1 + [0]         
                   p(e) = [0]                  
                   p(i) = [0]                  
              p(isList) = [1] x1 + [0]         
            p(isNeList) = [1] x1 + [5]         
             p(isNePal) = [1] x1 + [0]         
               p(isPal) = [1] x1 + [0]         
               p(isQid) = [1] x1 + [0]         
               p(n____) = [1] x1 + [1] x2 + [3]
                p(n__a) = [2]                  
                p(n__e) = [4]                  
                p(n__i) = [0]                  
              p(n__nil) = [0]                  
                p(n__o) = [2]                  
                p(n__u) = [0]                  
                 p(nil) = [0]                  
                   p(o) = [0]                  
                  p(tt) = [0]                  
                   p(u) = [0]                  
          
          Following rules are strictly oriented:
                          U11(tt()) = [5]                                     
                                    > [0]                                     
                                    = tt()                                    
          
                          U31(tt()) = [7]                                     
                                    > [0]                                     
                                    = tt()                                    
          
                          U42(tt()) = [7]                                     
                                    > [0]                                     
                                    = tt()                                    
          
             activate(n____(X1,X2)) = [1] X1 + [1] X2 + [3]                   
                                    > [1] X1 + [1] X2 + [0]                   
                                    = __(X1,X2)                               
          
                   activate(n__a()) = [2]                                     
                                    > [0]                                     
                                    = a()                                     
          
                   activate(n__e()) = [4]                                     
                                    > [0]                                     
                                    = e()                                     
          
                   activate(n__o()) = [2]                                     
                                    > [0]                                     
                                    = o()                                     
          
               isList(n____(V1,V2)) = [1] V1 + [1] V2 + [3]                   
                                    > [1] V1 + [1] V2 + [0]                   
                                    = U21(isList(activate(V1)),activate(V2))  
          
             isNeList(n____(V1,V2)) = [1] V1 + [1] V2 + [8]                   
                                    > [1] V1 + [1] V2 + [0]                   
                                    = U41(isList(activate(V1)),activate(V2))  
          
             isNeList(n____(V1,V2)) = [1] V1 + [1] V2 + [8]                   
                                    > [1] V1 + [1] V2 + [5]                   
                                    = U51(isNeList(activate(V1)),activate(V2))
          
          isNePal(n____(I,__(P,I))) = [2] I + [1] P + [3]                     
                                    > [1] I + [1] P + [0]                     
                                    = U71(isQid(activate(I)),activate(P))     
          
                      isQid(n__a()) = [2]                                     
                                    > [0]                                     
                                    = tt()                                    
          
                      isQid(n__e()) = [4]                                     
                                    > [0]                                     
                                    = tt()                                    
          
                      isQid(n__o()) = [2]                                     
                                    > [0]                                     
                                    = tt()                                    
          
          
          Following rules are (at-least) weakly oriented:
                U21(tt(),V2) =  [1] V2 + [0]               
                             >= [1] V2 + [0]               
                             =  U22(isList(activate(V2)))  
          
                   U22(tt()) =  [0]                        
                             >= [0]                        
                             =  tt()                       
          
                U41(tt(),V2) =  [1] V2 + [0]               
                             >= [1] V2 + [12]              
                             =  U42(isNeList(activate(V2)))
          
                U51(tt(),V2) =  [1] V2 + [0]               
                             >= [1] V2 + [0]               
                             =  U52(isList(activate(V2)))  
          
                   U52(tt()) =  [0]                        
                             >= [0]                        
                             =  tt()                       
          
                   U61(tt()) =  [0]                        
                             >= [0]                        
                             =  tt()                       
          
                 U71(tt(),P) =  [1] P + [0]                
                             >= [1] P + [0]                
                             =  U72(isPal(activate(P)))    
          
                   U72(tt()) =  [0]                        
                             >= [0]                        
                             =  tt()                       
          
                   U81(tt()) =  [0]                        
                             >= [0]                        
                             =  tt()                       
          
                   __(X1,X2) =  [1] X1 + [1] X2 + [0]      
                             >= [1] X1 + [1] X2 + [3]      
                             =  n____(X1,X2)               
          
                         a() =  [0]                        
                             >= [2]                        
                             =  n__a()                     
          
                 activate(X) =  [1] X + [0]                
                             >= [1] X + [0]                
                             =  X                          
          
            activate(n__i()) =  [0]                        
                             >= [0]                        
                             =  i()                        
          
          activate(n__nil()) =  [0]                        
                             >= [0]                        
                             =  nil()                      
          
            activate(n__u()) =  [0]                        
                             >= [0]                        
                             =  u()                        
          
                         e() =  [0]                        
                             >= [4]                        
                             =  n__e()                     
          
                         i() =  [0]                        
                             >= [0]                        
                             =  n__i()                     
          
                   isList(V) =  [1] V + [0]                
                             >= [1] V + [10]               
                             =  U11(isNeList(activate(V))) 
          
            isList(n__nil()) =  [0]                        
                             >= [0]                        
                             =  tt()                       
          
                 isNeList(V) =  [1] V + [5]                
                             >= [1] V + [7]                
                             =  U31(isQid(activate(V)))    
          
                  isNePal(V) =  [1] V + [0]                
                             >= [1] V + [0]                
                             =  U61(isQid(activate(V)))    
          
                    isPal(V) =  [1] V + [0]                
                             >= [1] V + [0]                
                             =  U81(isNePal(activate(V)))  
          
             isPal(n__nil()) =  [0]                        
                             >= [0]                        
                             =  tt()                       
          
               isQid(n__i()) =  [0]                        
                             >= [0]                        
                             =  tt()                       
          
               isQid(n__u()) =  [0]                        
                             >= [0]                        
                             =  tt()                       
          
                       nil() =  [0]                        
                             >= [0]                        
                             =  n__nil()                   
          
                         o() =  [0]                        
                             >= [2]                        
                             =  n__o()                     
          
                         u() =  [0]                        
                             >= [0]                        
                             =  n__u()                     
          
        Further, it can be verified that all rules not oriented are covered by the weightgap condition.
* Step 3: WeightGap WORST_CASE(?,O(n^1))
    + Considered Problem:
        - Strict TRS:
            U22(tt()) -> tt()
            U41(tt(),V2) -> U42(isNeList(activate(V2)))
            U51(tt(),V2) -> U52(isList(activate(V2)))
            U52(tt()) -> tt()
            U61(tt()) -> tt()
            U72(tt()) -> tt()
            U81(tt()) -> tt()
            __(X1,X2) -> n____(X1,X2)
            a() -> n__a()
            activate(X) -> X
            activate(n__i()) -> i()
            activate(n__nil()) -> nil()
            activate(n__u()) -> u()
            e() -> n__e()
            i() -> n__i()
            isList(V) -> U11(isNeList(activate(V)))
            isList(n__nil()) -> tt()
            isNeList(V) -> U31(isQid(activate(V)))
            isNePal(V) -> U61(isQid(activate(V)))
            isPal(V) -> U81(isNePal(activate(V)))
            isPal(n__nil()) -> tt()
            isQid(n__i()) -> tt()
            isQid(n__u()) -> tt()
            nil() -> n__nil()
            o() -> n__o()
        - Weak TRS:
            U11(tt()) -> tt()
            U21(tt(),V2) -> U22(isList(activate(V2)))
            U31(tt()) -> tt()
            U42(tt()) -> tt()
            U71(tt(),P) -> U72(isPal(activate(P)))
            activate(n____(X1,X2)) -> __(X1,X2)
            activate(n__a()) -> a()
            activate(n__e()) -> e()
            activate(n__o()) -> o()
            isList(n____(V1,V2)) -> U21(isList(activate(V1)),activate(V2))
            isNeList(n____(V1,V2)) -> U41(isList(activate(V1)),activate(V2))
            isNeList(n____(V1,V2)) -> U51(isNeList(activate(V1)),activate(V2))
            isNePal(n____(I,__(P,I))) -> U71(isQid(activate(I)),activate(P))
            isQid(n__a()) -> tt()
            isQid(n__e()) -> tt()
            isQid(n__o()) -> tt()
            u() -> n__u()
        - Signature:
            {U11/1,U21/2,U22/1,U31/1,U41/2,U42/1,U51/2,U52/1,U61/1,U71/2,U72/1,U81/1,__/2,a/0,activate/1,e/0,i/0
            ,isList/1,isNeList/1,isNePal/1,isPal/1,isQid/1,nil/0,o/0,u/0} / {n____/2,n__a/0,n__e/0,n__i/0,n__nil/0
            ,n__o/0,n__u/0,tt/0}
        - Obligation:
             runtime complexity wrt. defined symbols {U11,U21,U22,U31,U41,U42,U51,U52,U61,U71,U72,U81,__,a,activate,e,i
            ,isList,isNeList,isNePal,isPal,isQid,nil,o,u} and constructors {n____,n__a,n__e,n__i,n__nil,n__o,n__u,tt}
    + 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(U11) = {1},
            uargs(U21) = {1,2},
            uargs(U22) = {1},
            uargs(U31) = {1},
            uargs(U41) = {1,2},
            uargs(U42) = {1},
            uargs(U51) = {1,2},
            uargs(U52) = {1},
            uargs(U61) = {1},
            uargs(U71) = {1,2},
            uargs(U72) = {1},
            uargs(U81) = {1},
            uargs(activate) = {1},
            uargs(isList) = {1},
            uargs(isNeList) = {1},
            uargs(isNePal) = {1},
            uargs(isPal) = {1},
            uargs(isQid) = {1}
          
          Following symbols are considered usable:
            all
          TcT has computed the following interpretation:
                 p(U11) = [1] x1 + [0]         
                 p(U21) = [1] x1 + [1] x2 + [0]
                 p(U22) = [1] x1 + [5]         
                 p(U31) = [1] x1 + [0]         
                 p(U41) = [1] x1 + [1] x2 + [5]
                 p(U42) = [1] x1 + [0]         
                 p(U51) = [1] x1 + [1] x2 + [0]
                 p(U52) = [1] x1 + [0]         
                 p(U61) = [1] x1 + [7]         
                 p(U71) = [1] x1 + [1] x2 + [2]
                 p(U72) = [1] x1 + [0]         
                 p(U81) = [1] x1 + [3]         
                  p(__) = [1] x1 + [1] x2 + [0]
                   p(a) = [3]                  
            p(activate) = [1] x1 + [0]         
                   p(e) = [3]                  
                   p(i) = [0]                  
              p(isList) = [1] x1 + [0]         
            p(isNeList) = [1] x1 + [5]         
             p(isNePal) = [1] x1 + [7]         
               p(isPal) = [1] x1 + [7]         
               p(isQid) = [1] x1 + [2]         
               p(n____) = [1] x1 + [1] x2 + [0]
                p(n__a) = [3]                  
                p(n__e) = [3]                  
                p(n__i) = [0]                  
              p(n__nil) = [0]                  
                p(n__o) = [6]                  
                p(n__u) = [0]                  
                 p(nil) = [1]                  
                   p(o) = [0]                  
                  p(tt) = [5]                  
                   p(u) = [0]                  
          
          Following rules are strictly oriented:
                U22(tt()) = [10]                       
                          > [5]                        
                          = tt()                       
          
             U41(tt(),V2) = [1] V2 + [10]              
                          > [1] V2 + [5]               
                          = U42(isNeList(activate(V2)))
          
             U51(tt(),V2) = [1] V2 + [5]               
                          > [1] V2 + [0]               
                          = U52(isList(activate(V2)))  
          
                U61(tt()) = [12]                       
                          > [5]                        
                          = tt()                       
          
                U81(tt()) = [8]                        
                          > [5]                        
                          = tt()                       
          
              isNeList(V) = [1] V + [5]                
                          > [1] V + [2]                
                          = U31(isQid(activate(V)))    
          
          isPal(n__nil()) = [7]                        
                          > [5]                        
                          = tt()                       
          
                    nil() = [1]                        
                          > [0]                        
                          = n__nil()                   
          
          
          Following rules are (at-least) weakly oriented:
                          U11(tt()) =  [5]                                     
                                    >= [5]                                     
                                    =  tt()                                    
          
                       U21(tt(),V2) =  [1] V2 + [5]                            
                                    >= [1] V2 + [5]                            
                                    =  U22(isList(activate(V2)))               
          
                          U31(tt()) =  [5]                                     
                                    >= [5]                                     
                                    =  tt()                                    
          
                          U42(tt()) =  [5]                                     
                                    >= [5]                                     
                                    =  tt()                                    
          
                          U52(tt()) =  [5]                                     
                                    >= [5]                                     
                                    =  tt()                                    
          
                        U71(tt(),P) =  [1] P + [7]                             
                                    >= [1] P + [7]                             
                                    =  U72(isPal(activate(P)))                 
          
                          U72(tt()) =  [5]                                     
                                    >= [5]                                     
                                    =  tt()                                    
          
                          __(X1,X2) =  [1] X1 + [1] X2 + [0]                   
                                    >= [1] X1 + [1] X2 + [0]                   
                                    =  n____(X1,X2)                            
          
                                a() =  [3]                                     
                                    >= [3]                                     
                                    =  n__a()                                  
          
                        activate(X) =  [1] X + [0]                             
                                    >= [1] X + [0]                             
                                    =  X                                       
          
             activate(n____(X1,X2)) =  [1] X1 + [1] X2 + [0]                   
                                    >= [1] X1 + [1] X2 + [0]                   
                                    =  __(X1,X2)                               
          
                   activate(n__a()) =  [3]                                     
                                    >= [3]                                     
                                    =  a()                                     
          
                   activate(n__e()) =  [3]                                     
                                    >= [3]                                     
                                    =  e()                                     
          
                   activate(n__i()) =  [0]                                     
                                    >= [0]                                     
                                    =  i()                                     
          
                 activate(n__nil()) =  [0]                                     
                                    >= [1]                                     
                                    =  nil()                                   
          
                   activate(n__o()) =  [6]                                     
                                    >= [0]                                     
                                    =  o()                                     
          
                   activate(n__u()) =  [0]                                     
                                    >= [0]                                     
                                    =  u()                                     
          
                                e() =  [3]                                     
                                    >= [3]                                     
                                    =  n__e()                                  
          
                                i() =  [0]                                     
                                    >= [0]                                     
                                    =  n__i()                                  
          
                          isList(V) =  [1] V + [0]                             
                                    >= [1] V + [5]                             
                                    =  U11(isNeList(activate(V)))              
          
               isList(n____(V1,V2)) =  [1] V1 + [1] V2 + [0]                   
                                    >= [1] V1 + [1] V2 + [0]                   
                                    =  U21(isList(activate(V1)),activate(V2))  
          
                   isList(n__nil()) =  [0]                                     
                                    >= [5]                                     
                                    =  tt()                                    
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [5]                   
                                    >= [1] V1 + [1] V2 + [5]                   
                                    =  U41(isList(activate(V1)),activate(V2))  
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [5]                   
                                    >= [1] V1 + [1] V2 + [5]                   
                                    =  U51(isNeList(activate(V1)),activate(V2))
          
                         isNePal(V) =  [1] V + [7]                             
                                    >= [1] V + [9]                             
                                    =  U61(isQid(activate(V)))                 
          
          isNePal(n____(I,__(P,I))) =  [2] I + [1] P + [7]                     
                                    >= [1] I + [1] P + [4]                     
                                    =  U71(isQid(activate(I)),activate(P))     
          
                           isPal(V) =  [1] V + [7]                             
                                    >= [1] V + [10]                            
                                    =  U81(isNePal(activate(V)))               
          
                      isQid(n__a()) =  [5]                                     
                                    >= [5]                                     
                                    =  tt()                                    
          
                      isQid(n__e()) =  [5]                                     
                                    >= [5]                                     
                                    =  tt()                                    
          
                      isQid(n__i()) =  [2]                                     
                                    >= [5]                                     
                                    =  tt()                                    
          
                      isQid(n__o()) =  [8]                                     
                                    >= [5]                                     
                                    =  tt()                                    
          
                      isQid(n__u()) =  [2]                                     
                                    >= [5]                                     
                                    =  tt()                                    
          
                                o() =  [0]                                     
                                    >= [6]                                     
                                    =  n__o()                                  
          
                                u() =  [0]                                     
                                    >= [0]                                     
                                    =  n__u()                                  
          
        Further, it can be verified that all rules not oriented are covered by the weightgap condition.
* Step 4: WeightGap WORST_CASE(?,O(n^1))
    + Considered Problem:
        - Strict TRS:
            U52(tt()) -> tt()
            U72(tt()) -> tt()
            __(X1,X2) -> n____(X1,X2)
            a() -> n__a()
            activate(X) -> X
            activate(n__i()) -> i()
            activate(n__nil()) -> nil()
            activate(n__u()) -> u()
            e() -> n__e()
            i() -> n__i()
            isList(V) -> U11(isNeList(activate(V)))
            isList(n__nil()) -> tt()
            isNePal(V) -> U61(isQid(activate(V)))
            isPal(V) -> U81(isNePal(activate(V)))
            isQid(n__i()) -> tt()
            isQid(n__u()) -> tt()
            o() -> n__o()
        - Weak TRS:
            U11(tt()) -> tt()
            U21(tt(),V2) -> U22(isList(activate(V2)))
            U22(tt()) -> tt()
            U31(tt()) -> tt()
            U41(tt(),V2) -> U42(isNeList(activate(V2)))
            U42(tt()) -> tt()
            U51(tt(),V2) -> U52(isList(activate(V2)))
            U61(tt()) -> tt()
            U71(tt(),P) -> U72(isPal(activate(P)))
            U81(tt()) -> tt()
            activate(n____(X1,X2)) -> __(X1,X2)
            activate(n__a()) -> a()
            activate(n__e()) -> e()
            activate(n__o()) -> o()
            isList(n____(V1,V2)) -> U21(isList(activate(V1)),activate(V2))
            isNeList(V) -> U31(isQid(activate(V)))
            isNeList(n____(V1,V2)) -> U41(isList(activate(V1)),activate(V2))
            isNeList(n____(V1,V2)) -> U51(isNeList(activate(V1)),activate(V2))
            isNePal(n____(I,__(P,I))) -> U71(isQid(activate(I)),activate(P))
            isPal(n__nil()) -> tt()
            isQid(n__a()) -> tt()
            isQid(n__e()) -> tt()
            isQid(n__o()) -> tt()
            nil() -> n__nil()
            u() -> n__u()
        - Signature:
            {U11/1,U21/2,U22/1,U31/1,U41/2,U42/1,U51/2,U52/1,U61/1,U71/2,U72/1,U81/1,__/2,a/0,activate/1,e/0,i/0
            ,isList/1,isNeList/1,isNePal/1,isPal/1,isQid/1,nil/0,o/0,u/0} / {n____/2,n__a/0,n__e/0,n__i/0,n__nil/0
            ,n__o/0,n__u/0,tt/0}
        - Obligation:
             runtime complexity wrt. defined symbols {U11,U21,U22,U31,U41,U42,U51,U52,U61,U71,U72,U81,__,a,activate,e,i
            ,isList,isNeList,isNePal,isPal,isQid,nil,o,u} and constructors {n____,n__a,n__e,n__i,n__nil,n__o,n__u,tt}
    + 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(U11) = {1},
            uargs(U21) = {1,2},
            uargs(U22) = {1},
            uargs(U31) = {1},
            uargs(U41) = {1,2},
            uargs(U42) = {1},
            uargs(U51) = {1,2},
            uargs(U52) = {1},
            uargs(U61) = {1},
            uargs(U71) = {1,2},
            uargs(U72) = {1},
            uargs(U81) = {1},
            uargs(activate) = {1},
            uargs(isList) = {1},
            uargs(isNeList) = {1},
            uargs(isNePal) = {1},
            uargs(isPal) = {1},
            uargs(isQid) = {1}
          
          Following symbols are considered usable:
            all
          TcT has computed the following interpretation:
                 p(U11) = [1] x1 + [0]         
                 p(U21) = [1] x1 + [1] x2 + [5]
                 p(U22) = [1] x1 + [0]         
                 p(U31) = [1] x1 + [0]         
                 p(U41) = [1] x1 + [1] x2 + [0]
                 p(U42) = [1] x1 + [0]         
                 p(U51) = [1] x1 + [1] x2 + [1]
                 p(U52) = [1] x1 + [2]         
                 p(U61) = [1] x1 + [0]         
                 p(U71) = [1] x1 + [1] x2 + [7]
                 p(U72) = [1] x1 + [7]         
                 p(U81) = [1] x1 + [0]         
                  p(__) = [1] x1 + [1] x2 + [0]
                   p(a) = [0]                  
            p(activate) = [1] x1 + [0]         
                   p(e) = [0]                  
                   p(i) = [2]                  
              p(isList) = [1] x1 + [0]         
            p(isNeList) = [1] x1 + [1]         
             p(isNePal) = [1] x1 + [3]         
               p(isPal) = [1] x1 + [1]         
               p(isQid) = [1] x1 + [1]         
               p(n____) = [1] x1 + [1] x2 + [5]
                p(n__a) = [0]                  
                p(n__e) = [0]                  
                p(n__i) = [0]                  
              p(n__nil) = [0]                  
                p(n__o) = [2]                  
                p(n__u) = [0]                  
                 p(nil) = [0]                  
                   p(o) = [0]                  
                  p(tt) = [1]                  
                   p(u) = [0]                  
          
          Following rules are strictly oriented:
           U52(tt()) = [3]                    
                     > [1]                    
                     = tt()                   
          
           U72(tt()) = [8]                    
                     > [1]                    
                     = tt()                   
          
                 i() = [2]                    
                     > [0]                    
                     = n__i()                 
          
          isNePal(V) = [1] V + [3]            
                     > [1] V + [1]            
                     = U61(isQid(activate(V)))
          
          
          Following rules are (at-least) weakly oriented:
                          U11(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                       U21(tt(),V2) =  [1] V2 + [6]                            
                                    >= [1] V2 + [0]                            
                                    =  U22(isList(activate(V2)))               
          
                          U22(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                          U31(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                       U41(tt(),V2) =  [1] V2 + [1]                            
                                    >= [1] V2 + [1]                            
                                    =  U42(isNeList(activate(V2)))             
          
                          U42(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                       U51(tt(),V2) =  [1] V2 + [2]                            
                                    >= [1] V2 + [2]                            
                                    =  U52(isList(activate(V2)))               
          
                          U61(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                        U71(tt(),P) =  [1] P + [8]                             
                                    >= [1] P + [8]                             
                                    =  U72(isPal(activate(P)))                 
          
                          U81(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                          __(X1,X2) =  [1] X1 + [1] X2 + [0]                   
                                    >= [1] X1 + [1] X2 + [5]                   
                                    =  n____(X1,X2)                            
          
                                a() =  [0]                                     
                                    >= [0]                                     
                                    =  n__a()                                  
          
                        activate(X) =  [1] X + [0]                             
                                    >= [1] X + [0]                             
                                    =  X                                       
          
             activate(n____(X1,X2)) =  [1] X1 + [1] X2 + [5]                   
                                    >= [1] X1 + [1] X2 + [0]                   
                                    =  __(X1,X2)                               
          
                   activate(n__a()) =  [0]                                     
                                    >= [0]                                     
                                    =  a()                                     
          
                   activate(n__e()) =  [0]                                     
                                    >= [0]                                     
                                    =  e()                                     
          
                   activate(n__i()) =  [0]                                     
                                    >= [2]                                     
                                    =  i()                                     
          
                 activate(n__nil()) =  [0]                                     
                                    >= [0]                                     
                                    =  nil()                                   
          
                   activate(n__o()) =  [2]                                     
                                    >= [0]                                     
                                    =  o()                                     
          
                   activate(n__u()) =  [0]                                     
                                    >= [0]                                     
                                    =  u()                                     
          
                                e() =  [0]                                     
                                    >= [0]                                     
                                    =  n__e()                                  
          
                          isList(V) =  [1] V + [0]                             
                                    >= [1] V + [1]                             
                                    =  U11(isNeList(activate(V)))              
          
               isList(n____(V1,V2)) =  [1] V1 + [1] V2 + [5]                   
                                    >= [1] V1 + [1] V2 + [5]                   
                                    =  U21(isList(activate(V1)),activate(V2))  
          
                   isList(n__nil()) =  [0]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                        isNeList(V) =  [1] V + [1]                             
                                    >= [1] V + [1]                             
                                    =  U31(isQid(activate(V)))                 
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [6]                   
                                    >= [1] V1 + [1] V2 + [0]                   
                                    =  U41(isList(activate(V1)),activate(V2))  
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [6]                   
                                    >= [1] V1 + [1] V2 + [2]                   
                                    =  U51(isNeList(activate(V1)),activate(V2))
          
          isNePal(n____(I,__(P,I))) =  [2] I + [1] P + [8]                     
                                    >= [1] I + [1] P + [8]                     
                                    =  U71(isQid(activate(I)),activate(P))     
          
                           isPal(V) =  [1] V + [1]                             
                                    >= [1] V + [3]                             
                                    =  U81(isNePal(activate(V)))               
          
                    isPal(n__nil()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__a()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__e()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__i()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__o()) =  [3]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__u()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                              nil() =  [0]                                     
                                    >= [0]                                     
                                    =  n__nil()                                
          
                                o() =  [0]                                     
                                    >= [2]                                     
                                    =  n__o()                                  
          
                                u() =  [0]                                     
                                    >= [0]                                     
                                    =  n__u()                                  
          
        Further, it can be verified that all rules not oriented are covered by the weightgap condition.
* Step 5: WeightGap WORST_CASE(?,O(n^1))
    + Considered Problem:
        - Strict TRS:
            __(X1,X2) -> n____(X1,X2)
            a() -> n__a()
            activate(X) -> X
            activate(n__i()) -> i()
            activate(n__nil()) -> nil()
            activate(n__u()) -> u()
            e() -> n__e()
            isList(V) -> U11(isNeList(activate(V)))
            isList(n__nil()) -> tt()
            isPal(V) -> U81(isNePal(activate(V)))
            isQid(n__i()) -> tt()
            isQid(n__u()) -> tt()
            o() -> n__o()
        - Weak TRS:
            U11(tt()) -> tt()
            U21(tt(),V2) -> U22(isList(activate(V2)))
            U22(tt()) -> tt()
            U31(tt()) -> tt()
            U41(tt(),V2) -> U42(isNeList(activate(V2)))
            U42(tt()) -> tt()
            U51(tt(),V2) -> U52(isList(activate(V2)))
            U52(tt()) -> tt()
            U61(tt()) -> tt()
            U71(tt(),P) -> U72(isPal(activate(P)))
            U72(tt()) -> tt()
            U81(tt()) -> tt()
            activate(n____(X1,X2)) -> __(X1,X2)
            activate(n__a()) -> a()
            activate(n__e()) -> e()
            activate(n__o()) -> o()
            i() -> n__i()
            isList(n____(V1,V2)) -> U21(isList(activate(V1)),activate(V2))
            isNeList(V) -> U31(isQid(activate(V)))
            isNeList(n____(V1,V2)) -> U41(isList(activate(V1)),activate(V2))
            isNeList(n____(V1,V2)) -> U51(isNeList(activate(V1)),activate(V2))
            isNePal(V) -> U61(isQid(activate(V)))
            isNePal(n____(I,__(P,I))) -> U71(isQid(activate(I)),activate(P))
            isPal(n__nil()) -> tt()
            isQid(n__a()) -> tt()
            isQid(n__e()) -> tt()
            isQid(n__o()) -> tt()
            nil() -> n__nil()
            u() -> n__u()
        - Signature:
            {U11/1,U21/2,U22/1,U31/1,U41/2,U42/1,U51/2,U52/1,U61/1,U71/2,U72/1,U81/1,__/2,a/0,activate/1,e/0,i/0
            ,isList/1,isNeList/1,isNePal/1,isPal/1,isQid/1,nil/0,o/0,u/0} / {n____/2,n__a/0,n__e/0,n__i/0,n__nil/0
            ,n__o/0,n__u/0,tt/0}
        - Obligation:
             runtime complexity wrt. defined symbols {U11,U21,U22,U31,U41,U42,U51,U52,U61,U71,U72,U81,__,a,activate,e,i
            ,isList,isNeList,isNePal,isPal,isQid,nil,o,u} and constructors {n____,n__a,n__e,n__i,n__nil,n__o,n__u,tt}
    + 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(U11) = {1},
            uargs(U21) = {1,2},
            uargs(U22) = {1},
            uargs(U31) = {1},
            uargs(U41) = {1,2},
            uargs(U42) = {1},
            uargs(U51) = {1,2},
            uargs(U52) = {1},
            uargs(U61) = {1},
            uargs(U71) = {1,2},
            uargs(U72) = {1},
            uargs(U81) = {1},
            uargs(activate) = {1},
            uargs(isList) = {1},
            uargs(isNeList) = {1},
            uargs(isNePal) = {1},
            uargs(isPal) = {1},
            uargs(isQid) = {1}
          
          Following symbols are considered usable:
            all
          TcT has computed the following interpretation:
                 p(U11) = [1] x1 + [2]         
                 p(U21) = [1] x1 + [1] x2 + [7]
                 p(U22) = [1] x1 + [3]         
                 p(U31) = [1] x1 + [0]         
                 p(U41) = [1] x1 + [1] x2 + [4]
                 p(U42) = [1] x1 + [0]         
                 p(U51) = [1] x1 + [1] x2 + [7]
                 p(U52) = [1] x1 + [3]         
                 p(U61) = [1] x1 + [4]         
                 p(U71) = [1] x1 + [1] x2 + [5]
                 p(U72) = [1] x1 + [0]         
                 p(U81) = [1] x1 + [5]         
                  p(__) = [1] x1 + [1] x2 + [4]
                   p(a) = [0]                  
            p(activate) = [1] x1 + [0]         
                   p(e) = [0]                  
                   p(i) = [0]                  
              p(isList) = [1] x1 + [4]         
            p(isNeList) = [1] x1 + [1]         
             p(isNePal) = [1] x1 + [4]         
               p(isPal) = [1] x1 + [4]         
               p(isQid) = [1] x1 + [0]         
               p(n____) = [1] x1 + [1] x2 + [7]
                p(n__a) = [0]                  
                p(n__e) = [0]                  
                p(n__i) = [0]                  
              p(n__nil) = [0]                  
                p(n__o) = [1]                  
                p(n__u) = [0]                  
                 p(nil) = [0]                  
                   p(o) = [0]                  
                  p(tt) = [0]                  
                   p(u) = [1]                  
          
          Following rules are strictly oriented:
                 isList(V) = [1] V + [4]               
                           > [1] V + [3]               
                           = U11(isNeList(activate(V)))
          
          isList(n__nil()) = [4]                       
                           > [0]                       
                           = tt()                      
          
          
          Following rules are (at-least) weakly oriented:
                          U11(tt()) =  [2]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U21(tt(),V2) =  [1] V2 + [7]                            
                                    >= [1] V2 + [7]                            
                                    =  U22(isList(activate(V2)))               
          
                          U22(tt()) =  [3]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U31(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U41(tt(),V2) =  [1] V2 + [4]                            
                                    >= [1] V2 + [1]                            
                                    =  U42(isNeList(activate(V2)))             
          
                          U42(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U51(tt(),V2) =  [1] V2 + [7]                            
                                    >= [1] V2 + [7]                            
                                    =  U52(isList(activate(V2)))               
          
                          U52(tt()) =  [3]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U61(tt()) =  [4]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                        U71(tt(),P) =  [1] P + [5]                             
                                    >= [1] P + [4]                             
                                    =  U72(isPal(activate(P)))                 
          
                          U72(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U81(tt()) =  [5]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          __(X1,X2) =  [1] X1 + [1] X2 + [4]                   
                                    >= [1] X1 + [1] X2 + [7]                   
                                    =  n____(X1,X2)                            
          
                                a() =  [0]                                     
                                    >= [0]                                     
                                    =  n__a()                                  
          
                        activate(X) =  [1] X + [0]                             
                                    >= [1] X + [0]                             
                                    =  X                                       
          
             activate(n____(X1,X2)) =  [1] X1 + [1] X2 + [7]                   
                                    >= [1] X1 + [1] X2 + [4]                   
                                    =  __(X1,X2)                               
          
                   activate(n__a()) =  [0]                                     
                                    >= [0]                                     
                                    =  a()                                     
          
                   activate(n__e()) =  [0]                                     
                                    >= [0]                                     
                                    =  e()                                     
          
                   activate(n__i()) =  [0]                                     
                                    >= [0]                                     
                                    =  i()                                     
          
                 activate(n__nil()) =  [0]                                     
                                    >= [0]                                     
                                    =  nil()                                   
          
                   activate(n__o()) =  [1]                                     
                                    >= [0]                                     
                                    =  o()                                     
          
                   activate(n__u()) =  [0]                                     
                                    >= [1]                                     
                                    =  u()                                     
          
                                e() =  [0]                                     
                                    >= [0]                                     
                                    =  n__e()                                  
          
                                i() =  [0]                                     
                                    >= [0]                                     
                                    =  n__i()                                  
          
               isList(n____(V1,V2)) =  [1] V1 + [1] V2 + [11]                  
                                    >= [1] V1 + [1] V2 + [11]                  
                                    =  U21(isList(activate(V1)),activate(V2))  
          
                        isNeList(V) =  [1] V + [1]                             
                                    >= [1] V + [0]                             
                                    =  U31(isQid(activate(V)))                 
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [8]                   
                                    >= [1] V1 + [1] V2 + [8]                   
                                    =  U41(isList(activate(V1)),activate(V2))  
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [8]                   
                                    >= [1] V1 + [1] V2 + [8]                   
                                    =  U51(isNeList(activate(V1)),activate(V2))
          
                         isNePal(V) =  [1] V + [4]                             
                                    >= [1] V + [4]                             
                                    =  U61(isQid(activate(V)))                 
          
          isNePal(n____(I,__(P,I))) =  [2] I + [1] P + [15]                    
                                    >= [1] I + [1] P + [5]                     
                                    =  U71(isQid(activate(I)),activate(P))     
          
                           isPal(V) =  [1] V + [4]                             
                                    >= [1] V + [9]                             
                                    =  U81(isNePal(activate(V)))               
          
                    isPal(n__nil()) =  [4]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__a()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__e()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__i()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__o()) =  [1]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__u()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                              nil() =  [0]                                     
                                    >= [0]                                     
                                    =  n__nil()                                
          
                                o() =  [0]                                     
                                    >= [1]                                     
                                    =  n__o()                                  
          
                                u() =  [1]                                     
                                    >= [0]                                     
                                    =  n__u()                                  
          
        Further, it can be verified that all rules not oriented are covered by the weightgap condition.
* Step 6: WeightGap WORST_CASE(?,O(n^1))
    + Considered Problem:
        - Strict TRS:
            __(X1,X2) -> n____(X1,X2)
            a() -> n__a()
            activate(X) -> X
            activate(n__i()) -> i()
            activate(n__nil()) -> nil()
            activate(n__u()) -> u()
            e() -> n__e()
            isPal(V) -> U81(isNePal(activate(V)))
            isQid(n__i()) -> tt()
            isQid(n__u()) -> tt()
            o() -> n__o()
        - Weak TRS:
            U11(tt()) -> tt()
            U21(tt(),V2) -> U22(isList(activate(V2)))
            U22(tt()) -> tt()
            U31(tt()) -> tt()
            U41(tt(),V2) -> U42(isNeList(activate(V2)))
            U42(tt()) -> tt()
            U51(tt(),V2) -> U52(isList(activate(V2)))
            U52(tt()) -> tt()
            U61(tt()) -> tt()
            U71(tt(),P) -> U72(isPal(activate(P)))
            U72(tt()) -> tt()
            U81(tt()) -> tt()
            activate(n____(X1,X2)) -> __(X1,X2)
            activate(n__a()) -> a()
            activate(n__e()) -> e()
            activate(n__o()) -> o()
            i() -> n__i()
            isList(V) -> U11(isNeList(activate(V)))
            isList(n____(V1,V2)) -> U21(isList(activate(V1)),activate(V2))
            isList(n__nil()) -> tt()
            isNeList(V) -> U31(isQid(activate(V)))
            isNeList(n____(V1,V2)) -> U41(isList(activate(V1)),activate(V2))
            isNeList(n____(V1,V2)) -> U51(isNeList(activate(V1)),activate(V2))
            isNePal(V) -> U61(isQid(activate(V)))
            isNePal(n____(I,__(P,I))) -> U71(isQid(activate(I)),activate(P))
            isPal(n__nil()) -> tt()
            isQid(n__a()) -> tt()
            isQid(n__e()) -> tt()
            isQid(n__o()) -> tt()
            nil() -> n__nil()
            u() -> n__u()
        - Signature:
            {U11/1,U21/2,U22/1,U31/1,U41/2,U42/1,U51/2,U52/1,U61/1,U71/2,U72/1,U81/1,__/2,a/0,activate/1,e/0,i/0
            ,isList/1,isNeList/1,isNePal/1,isPal/1,isQid/1,nil/0,o/0,u/0} / {n____/2,n__a/0,n__e/0,n__i/0,n__nil/0
            ,n__o/0,n__u/0,tt/0}
        - Obligation:
             runtime complexity wrt. defined symbols {U11,U21,U22,U31,U41,U42,U51,U52,U61,U71,U72,U81,__,a,activate,e,i
            ,isList,isNeList,isNePal,isPal,isQid,nil,o,u} and constructors {n____,n__a,n__e,n__i,n__nil,n__o,n__u,tt}
    + 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(U11) = {1},
            uargs(U21) = {1,2},
            uargs(U22) = {1},
            uargs(U31) = {1},
            uargs(U41) = {1,2},
            uargs(U42) = {1},
            uargs(U51) = {1,2},
            uargs(U52) = {1},
            uargs(U61) = {1},
            uargs(U71) = {1,2},
            uargs(U72) = {1},
            uargs(U81) = {1},
            uargs(activate) = {1},
            uargs(isList) = {1},
            uargs(isNeList) = {1},
            uargs(isNePal) = {1},
            uargs(isPal) = {1},
            uargs(isQid) = {1}
          
          Following symbols are considered usable:
            all
          TcT has computed the following interpretation:
                 p(U11) = [1] x1 + [0]         
                 p(U21) = [1] x1 + [1] x2 + [0]
                 p(U22) = [1] x1 + [0]         
                 p(U31) = [1] x1 + [0]         
                 p(U41) = [1] x1 + [1] x2 + [7]
                 p(U42) = [1] x1 + [0]         
                 p(U51) = [1] x1 + [1] x2 + [7]
                 p(U52) = [1] x1 + [0]         
                 p(U61) = [1] x1 + [1]         
                 p(U71) = [1] x1 + [1] x2 + [2]
                 p(U72) = [1] x1 + [2]         
                 p(U81) = [1] x1 + [1]         
                  p(__) = [1] x1 + [1] x2 + [2]
                   p(a) = [0]                  
            p(activate) = [1] x1 + [0]         
                   p(e) = [0]                  
                   p(i) = [6]                  
              p(isList) = [1] x1 + [0]         
            p(isNeList) = [1] x1 + [0]         
             p(isNePal) = [1] x1 + [1]         
               p(isPal) = [1] x1 + [0]         
               p(isQid) = [1] x1 + [0]         
               p(n____) = [1] x1 + [1] x2 + [7]
                p(n__a) = [1]                  
                p(n__e) = [1]                  
                p(n__i) = [5]                  
              p(n__nil) = [3]                  
                p(n__o) = [0]                  
                p(n__u) = [0]                  
                 p(nil) = [4]                  
                   p(o) = [0]                  
                  p(tt) = [0]                  
                   p(u) = [0]                  
          
          Following rules are strictly oriented:
          isQid(n__i()) = [5] 
                        > [0] 
                        = tt()
          
          
          Following rules are (at-least) weakly oriented:
                          U11(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U21(tt(),V2) =  [1] V2 + [0]                            
                                    >= [1] V2 + [0]                            
                                    =  U22(isList(activate(V2)))               
          
                          U22(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U31(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U41(tt(),V2) =  [1] V2 + [7]                            
                                    >= [1] V2 + [0]                            
                                    =  U42(isNeList(activate(V2)))             
          
                          U42(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U51(tt(),V2) =  [1] V2 + [7]                            
                                    >= [1] V2 + [0]                            
                                    =  U52(isList(activate(V2)))               
          
                          U52(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U61(tt()) =  [1]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                        U71(tt(),P) =  [1] P + [2]                             
                                    >= [1] P + [2]                             
                                    =  U72(isPal(activate(P)))                 
          
                          U72(tt()) =  [2]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U81(tt()) =  [1]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          __(X1,X2) =  [1] X1 + [1] X2 + [2]                   
                                    >= [1] X1 + [1] X2 + [7]                   
                                    =  n____(X1,X2)                            
          
                                a() =  [0]                                     
                                    >= [1]                                     
                                    =  n__a()                                  
          
                        activate(X) =  [1] X + [0]                             
                                    >= [1] X + [0]                             
                                    =  X                                       
          
             activate(n____(X1,X2)) =  [1] X1 + [1] X2 + [7]                   
                                    >= [1] X1 + [1] X2 + [2]                   
                                    =  __(X1,X2)                               
          
                   activate(n__a()) =  [1]                                     
                                    >= [0]                                     
                                    =  a()                                     
          
                   activate(n__e()) =  [1]                                     
                                    >= [0]                                     
                                    =  e()                                     
          
                   activate(n__i()) =  [5]                                     
                                    >= [6]                                     
                                    =  i()                                     
          
                 activate(n__nil()) =  [3]                                     
                                    >= [4]                                     
                                    =  nil()                                   
          
                   activate(n__o()) =  [0]                                     
                                    >= [0]                                     
                                    =  o()                                     
          
                   activate(n__u()) =  [0]                                     
                                    >= [0]                                     
                                    =  u()                                     
          
                                e() =  [0]                                     
                                    >= [1]                                     
                                    =  n__e()                                  
          
                                i() =  [6]                                     
                                    >= [5]                                     
                                    =  n__i()                                  
          
                          isList(V) =  [1] V + [0]                             
                                    >= [1] V + [0]                             
                                    =  U11(isNeList(activate(V)))              
          
               isList(n____(V1,V2)) =  [1] V1 + [1] V2 + [7]                   
                                    >= [1] V1 + [1] V2 + [0]                   
                                    =  U21(isList(activate(V1)),activate(V2))  
          
                   isList(n__nil()) =  [3]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                        isNeList(V) =  [1] V + [0]                             
                                    >= [1] V + [0]                             
                                    =  U31(isQid(activate(V)))                 
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [7]                   
                                    >= [1] V1 + [1] V2 + [7]                   
                                    =  U41(isList(activate(V1)),activate(V2))  
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [7]                   
                                    >= [1] V1 + [1] V2 + [7]                   
                                    =  U51(isNeList(activate(V1)),activate(V2))
          
                         isNePal(V) =  [1] V + [1]                             
                                    >= [1] V + [1]                             
                                    =  U61(isQid(activate(V)))                 
          
          isNePal(n____(I,__(P,I))) =  [2] I + [1] P + [10]                    
                                    >= [1] I + [1] P + [2]                     
                                    =  U71(isQid(activate(I)),activate(P))     
          
                           isPal(V) =  [1] V + [0]                             
                                    >= [1] V + [2]                             
                                    =  U81(isNePal(activate(V)))               
          
                    isPal(n__nil()) =  [3]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__a()) =  [1]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__e()) =  [1]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__o()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__u()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                              nil() =  [4]                                     
                                    >= [3]                                     
                                    =  n__nil()                                
          
                                o() =  [0]                                     
                                    >= [0]                                     
                                    =  n__o()                                  
          
                                u() =  [0]                                     
                                    >= [0]                                     
                                    =  n__u()                                  
          
        Further, it can be verified that all rules not oriented are covered by the weightgap condition.
* Step 7: WeightGap WORST_CASE(?,O(n^1))
    + Considered Problem:
        - Strict TRS:
            __(X1,X2) -> n____(X1,X2)
            a() -> n__a()
            activate(X) -> X
            activate(n__i()) -> i()
            activate(n__nil()) -> nil()
            activate(n__u()) -> u()
            e() -> n__e()
            isPal(V) -> U81(isNePal(activate(V)))
            isQid(n__u()) -> tt()
            o() -> n__o()
        - Weak TRS:
            U11(tt()) -> tt()
            U21(tt(),V2) -> U22(isList(activate(V2)))
            U22(tt()) -> tt()
            U31(tt()) -> tt()
            U41(tt(),V2) -> U42(isNeList(activate(V2)))
            U42(tt()) -> tt()
            U51(tt(),V2) -> U52(isList(activate(V2)))
            U52(tt()) -> tt()
            U61(tt()) -> tt()
            U71(tt(),P) -> U72(isPal(activate(P)))
            U72(tt()) -> tt()
            U81(tt()) -> tt()
            activate(n____(X1,X2)) -> __(X1,X2)
            activate(n__a()) -> a()
            activate(n__e()) -> e()
            activate(n__o()) -> o()
            i() -> n__i()
            isList(V) -> U11(isNeList(activate(V)))
            isList(n____(V1,V2)) -> U21(isList(activate(V1)),activate(V2))
            isList(n__nil()) -> tt()
            isNeList(V) -> U31(isQid(activate(V)))
            isNeList(n____(V1,V2)) -> U41(isList(activate(V1)),activate(V2))
            isNeList(n____(V1,V2)) -> U51(isNeList(activate(V1)),activate(V2))
            isNePal(V) -> U61(isQid(activate(V)))
            isNePal(n____(I,__(P,I))) -> U71(isQid(activate(I)),activate(P))
            isPal(n__nil()) -> tt()
            isQid(n__a()) -> tt()
            isQid(n__e()) -> tt()
            isQid(n__i()) -> tt()
            isQid(n__o()) -> tt()
            nil() -> n__nil()
            u() -> n__u()
        - Signature:
            {U11/1,U21/2,U22/1,U31/1,U41/2,U42/1,U51/2,U52/1,U61/1,U71/2,U72/1,U81/1,__/2,a/0,activate/1,e/0,i/0
            ,isList/1,isNeList/1,isNePal/1,isPal/1,isQid/1,nil/0,o/0,u/0} / {n____/2,n__a/0,n__e/0,n__i/0,n__nil/0
            ,n__o/0,n__u/0,tt/0}
        - Obligation:
             runtime complexity wrt. defined symbols {U11,U21,U22,U31,U41,U42,U51,U52,U61,U71,U72,U81,__,a,activate,e,i
            ,isList,isNeList,isNePal,isPal,isQid,nil,o,u} and constructors {n____,n__a,n__e,n__i,n__nil,n__o,n__u,tt}
    + 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(U11) = {1},
            uargs(U21) = {1,2},
            uargs(U22) = {1},
            uargs(U31) = {1},
            uargs(U41) = {1,2},
            uargs(U42) = {1},
            uargs(U51) = {1,2},
            uargs(U52) = {1},
            uargs(U61) = {1},
            uargs(U71) = {1,2},
            uargs(U72) = {1},
            uargs(U81) = {1},
            uargs(activate) = {1},
            uargs(isList) = {1},
            uargs(isNeList) = {1},
            uargs(isNePal) = {1},
            uargs(isPal) = {1},
            uargs(isQid) = {1}
          
          Following symbols are considered usable:
            all
          TcT has computed the following interpretation:
                 p(U11) = [1] x1 + [0]         
                 p(U21) = [1] x1 + [1] x2 + [1]
                 p(U22) = [1] x1 + [1]         
                 p(U31) = [1] x1 + [0]         
                 p(U41) = [1] x1 + [1] x2 + [0]
                 p(U42) = [1] x1 + [0]         
                 p(U51) = [1] x1 + [1] x2 + [0]
                 p(U52) = [1] x1 + [0]         
                 p(U61) = [1] x1 + [0]         
                 p(U71) = [1] x1 + [1] x2 + [0]
                 p(U72) = [1] x1 + [0]         
                 p(U81) = [1] x1 + [0]         
                  p(__) = [1] x1 + [1] x2 + [0]
                   p(a) = [0]                  
            p(activate) = [1] x1 + [0]         
                   p(e) = [0]                  
                   p(i) = [0]                  
              p(isList) = [1] x1 + [0]         
            p(isNeList) = [1] x1 + [0]         
             p(isNePal) = [1] x1 + [7]         
               p(isPal) = [1] x1 + [0]         
               p(isQid) = [1] x1 + [0]         
               p(n____) = [1] x1 + [1] x2 + [6]
                p(n__a) = [0]                  
                p(n__e) = [5]                  
                p(n__i) = [0]                  
              p(n__nil) = [0]                  
                p(n__o) = [2]                  
                p(n__u) = [1]                  
                 p(nil) = [0]                  
                   p(o) = [0]                  
                  p(tt) = [0]                  
                   p(u) = [1]                  
          
          Following rules are strictly oriented:
          isQid(n__u()) = [1] 
                        > [0] 
                        = tt()
          
          
          Following rules are (at-least) weakly oriented:
                          U11(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U21(tt(),V2) =  [1] V2 + [1]                            
                                    >= [1] V2 + [1]                            
                                    =  U22(isList(activate(V2)))               
          
                          U22(tt()) =  [1]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U31(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U41(tt(),V2) =  [1] V2 + [0]                            
                                    >= [1] V2 + [0]                            
                                    =  U42(isNeList(activate(V2)))             
          
                          U42(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U51(tt(),V2) =  [1] V2 + [0]                            
                                    >= [1] V2 + [0]                            
                                    =  U52(isList(activate(V2)))               
          
                          U52(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U61(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                        U71(tt(),P) =  [1] P + [0]                             
                                    >= [1] P + [0]                             
                                    =  U72(isPal(activate(P)))                 
          
                          U72(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U81(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          __(X1,X2) =  [1] X1 + [1] X2 + [0]                   
                                    >= [1] X1 + [1] X2 + [6]                   
                                    =  n____(X1,X2)                            
          
                                a() =  [0]                                     
                                    >= [0]                                     
                                    =  n__a()                                  
          
                        activate(X) =  [1] X + [0]                             
                                    >= [1] X + [0]                             
                                    =  X                                       
          
             activate(n____(X1,X2)) =  [1] X1 + [1] X2 + [6]                   
                                    >= [1] X1 + [1] X2 + [0]                   
                                    =  __(X1,X2)                               
          
                   activate(n__a()) =  [0]                                     
                                    >= [0]                                     
                                    =  a()                                     
          
                   activate(n__e()) =  [5]                                     
                                    >= [0]                                     
                                    =  e()                                     
          
                   activate(n__i()) =  [0]                                     
                                    >= [0]                                     
                                    =  i()                                     
          
                 activate(n__nil()) =  [0]                                     
                                    >= [0]                                     
                                    =  nil()                                   
          
                   activate(n__o()) =  [2]                                     
                                    >= [0]                                     
                                    =  o()                                     
          
                   activate(n__u()) =  [1]                                     
                                    >= [1]                                     
                                    =  u()                                     
          
                                e() =  [0]                                     
                                    >= [5]                                     
                                    =  n__e()                                  
          
                                i() =  [0]                                     
                                    >= [0]                                     
                                    =  n__i()                                  
          
                          isList(V) =  [1] V + [0]                             
                                    >= [1] V + [0]                             
                                    =  U11(isNeList(activate(V)))              
          
               isList(n____(V1,V2)) =  [1] V1 + [1] V2 + [6]                   
                                    >= [1] V1 + [1] V2 + [1]                   
                                    =  U21(isList(activate(V1)),activate(V2))  
          
                   isList(n__nil()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                        isNeList(V) =  [1] V + [0]                             
                                    >= [1] V + [0]                             
                                    =  U31(isQid(activate(V)))                 
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [6]                   
                                    >= [1] V1 + [1] V2 + [0]                   
                                    =  U41(isList(activate(V1)),activate(V2))  
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [6]                   
                                    >= [1] V1 + [1] V2 + [0]                   
                                    =  U51(isNeList(activate(V1)),activate(V2))
          
                         isNePal(V) =  [1] V + [7]                             
                                    >= [1] V + [0]                             
                                    =  U61(isQid(activate(V)))                 
          
          isNePal(n____(I,__(P,I))) =  [2] I + [1] P + [13]                    
                                    >= [1] I + [1] P + [0]                     
                                    =  U71(isQid(activate(I)),activate(P))     
          
                           isPal(V) =  [1] V + [0]                             
                                    >= [1] V + [7]                             
                                    =  U81(isNePal(activate(V)))               
          
                    isPal(n__nil()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__a()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__e()) =  [5]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__i()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__o()) =  [2]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                              nil() =  [0]                                     
                                    >= [0]                                     
                                    =  n__nil()                                
          
                                o() =  [0]                                     
                                    >= [2]                                     
                                    =  n__o()                                  
          
                                u() =  [1]                                     
                                    >= [1]                                     
                                    =  n__u()                                  
          
        Further, it can be verified that all rules not oriented are covered by the weightgap condition.
* Step 8: WeightGap WORST_CASE(?,O(n^1))
    + Considered Problem:
        - Strict TRS:
            __(X1,X2) -> n____(X1,X2)
            a() -> n__a()
            activate(X) -> X
            activate(n__i()) -> i()
            activate(n__nil()) -> nil()
            activate(n__u()) -> u()
            e() -> n__e()
            isPal(V) -> U81(isNePal(activate(V)))
            o() -> n__o()
        - Weak TRS:
            U11(tt()) -> tt()
            U21(tt(),V2) -> U22(isList(activate(V2)))
            U22(tt()) -> tt()
            U31(tt()) -> tt()
            U41(tt(),V2) -> U42(isNeList(activate(V2)))
            U42(tt()) -> tt()
            U51(tt(),V2) -> U52(isList(activate(V2)))
            U52(tt()) -> tt()
            U61(tt()) -> tt()
            U71(tt(),P) -> U72(isPal(activate(P)))
            U72(tt()) -> tt()
            U81(tt()) -> tt()
            activate(n____(X1,X2)) -> __(X1,X2)
            activate(n__a()) -> a()
            activate(n__e()) -> e()
            activate(n__o()) -> o()
            i() -> n__i()
            isList(V) -> U11(isNeList(activate(V)))
            isList(n____(V1,V2)) -> U21(isList(activate(V1)),activate(V2))
            isList(n__nil()) -> tt()
            isNeList(V) -> U31(isQid(activate(V)))
            isNeList(n____(V1,V2)) -> U41(isList(activate(V1)),activate(V2))
            isNeList(n____(V1,V2)) -> U51(isNeList(activate(V1)),activate(V2))
            isNePal(V) -> U61(isQid(activate(V)))
            isNePal(n____(I,__(P,I))) -> U71(isQid(activate(I)),activate(P))
            isPal(n__nil()) -> tt()
            isQid(n__a()) -> tt()
            isQid(n__e()) -> tt()
            isQid(n__i()) -> tt()
            isQid(n__o()) -> tt()
            isQid(n__u()) -> tt()
            nil() -> n__nil()
            u() -> n__u()
        - Signature:
            {U11/1,U21/2,U22/1,U31/1,U41/2,U42/1,U51/2,U52/1,U61/1,U71/2,U72/1,U81/1,__/2,a/0,activate/1,e/0,i/0
            ,isList/1,isNeList/1,isNePal/1,isPal/1,isQid/1,nil/0,o/0,u/0} / {n____/2,n__a/0,n__e/0,n__i/0,n__nil/0
            ,n__o/0,n__u/0,tt/0}
        - Obligation:
             runtime complexity wrt. defined symbols {U11,U21,U22,U31,U41,U42,U51,U52,U61,U71,U72,U81,__,a,activate,e,i
            ,isList,isNeList,isNePal,isPal,isQid,nil,o,u} and constructors {n____,n__a,n__e,n__i,n__nil,n__o,n__u,tt}
    + 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(U11) = {1},
            uargs(U21) = {1,2},
            uargs(U22) = {1},
            uargs(U31) = {1},
            uargs(U41) = {1,2},
            uargs(U42) = {1},
            uargs(U51) = {1,2},
            uargs(U52) = {1},
            uargs(U61) = {1},
            uargs(U71) = {1,2},
            uargs(U72) = {1},
            uargs(U81) = {1},
            uargs(activate) = {1},
            uargs(isList) = {1},
            uargs(isNeList) = {1},
            uargs(isNePal) = {1},
            uargs(isPal) = {1},
            uargs(isQid) = {1}
          
          Following symbols are considered usable:
            all
          TcT has computed the following interpretation:
                 p(U11) = [1] x1 + [0]         
                 p(U21) = [1] x1 + [1] x2 + [7]
                 p(U22) = [1] x1 + [4]         
                 p(U31) = [1] x1 + [1]         
                 p(U41) = [1] x1 + [1] x2 + [7]
                 p(U42) = [1] x1 + [4]         
                 p(U51) = [1] x1 + [1] x2 + [7]
                 p(U52) = [1] x1 + [4]         
                 p(U61) = [1] x1 + [1]         
                 p(U71) = [1] x1 + [1] x2 + [3]
                 p(U72) = [1] x1 + [0]         
                 p(U81) = [1] x1 + [0]         
                  p(__) = [1] x1 + [1] x2 + [1]
                   p(a) = [0]                  
            p(activate) = [1] x1 + [0]         
                   p(e) = [0]                  
                   p(i) = [0]                  
              p(isList) = [1] x1 + [2]         
            p(isNeList) = [1] x1 + [2]         
             p(isNePal) = [1] x1 + [2]         
               p(isPal) = [1] x1 + [3]         
               p(isQid) = [1] x1 + [1]         
               p(n____) = [1] x1 + [1] x2 + [7]
                p(n__a) = [2]                  
                p(n__e) = [1]                  
                p(n__i) = [0]                  
              p(n__nil) = [0]                  
                p(n__o) = [3]                  
                p(n__u) = [1]                  
                 p(nil) = [3]                  
                   p(o) = [0]                  
                  p(tt) = [0]                  
                   p(u) = [1]                  
          
          Following rules are strictly oriented:
          isPal(V) = [1] V + [3]              
                   > [1] V + [2]              
                   = U81(isNePal(activate(V)))
          
          
          Following rules are (at-least) weakly oriented:
                          U11(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U21(tt(),V2) =  [1] V2 + [7]                            
                                    >= [1] V2 + [6]                            
                                    =  U22(isList(activate(V2)))               
          
                          U22(tt()) =  [4]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U31(tt()) =  [1]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U41(tt(),V2) =  [1] V2 + [7]                            
                                    >= [1] V2 + [6]                            
                                    =  U42(isNeList(activate(V2)))             
          
                          U42(tt()) =  [4]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                       U51(tt(),V2) =  [1] V2 + [7]                            
                                    >= [1] V2 + [6]                            
                                    =  U52(isList(activate(V2)))               
          
                          U52(tt()) =  [4]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U61(tt()) =  [1]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                        U71(tt(),P) =  [1] P + [3]                             
                                    >= [1] P + [3]                             
                                    =  U72(isPal(activate(P)))                 
          
                          U72(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          U81(tt()) =  [0]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                          __(X1,X2) =  [1] X1 + [1] X2 + [1]                   
                                    >= [1] X1 + [1] X2 + [7]                   
                                    =  n____(X1,X2)                            
          
                                a() =  [0]                                     
                                    >= [2]                                     
                                    =  n__a()                                  
          
                        activate(X) =  [1] X + [0]                             
                                    >= [1] X + [0]                             
                                    =  X                                       
          
             activate(n____(X1,X2)) =  [1] X1 + [1] X2 + [7]                   
                                    >= [1] X1 + [1] X2 + [1]                   
                                    =  __(X1,X2)                               
          
                   activate(n__a()) =  [2]                                     
                                    >= [0]                                     
                                    =  a()                                     
          
                   activate(n__e()) =  [1]                                     
                                    >= [0]                                     
                                    =  e()                                     
          
                   activate(n__i()) =  [0]                                     
                                    >= [0]                                     
                                    =  i()                                     
          
                 activate(n__nil()) =  [0]                                     
                                    >= [3]                                     
                                    =  nil()                                   
          
                   activate(n__o()) =  [3]                                     
                                    >= [0]                                     
                                    =  o()                                     
          
                   activate(n__u()) =  [1]                                     
                                    >= [1]                                     
                                    =  u()                                     
          
                                e() =  [0]                                     
                                    >= [1]                                     
                                    =  n__e()                                  
          
                                i() =  [0]                                     
                                    >= [0]                                     
                                    =  n__i()                                  
          
                          isList(V) =  [1] V + [2]                             
                                    >= [1] V + [2]                             
                                    =  U11(isNeList(activate(V)))              
          
               isList(n____(V1,V2)) =  [1] V1 + [1] V2 + [9]                   
                                    >= [1] V1 + [1] V2 + [9]                   
                                    =  U21(isList(activate(V1)),activate(V2))  
          
                   isList(n__nil()) =  [2]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                        isNeList(V) =  [1] V + [2]                             
                                    >= [1] V + [2]                             
                                    =  U31(isQid(activate(V)))                 
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [9]                   
                                    >= [1] V1 + [1] V2 + [9]                   
                                    =  U41(isList(activate(V1)),activate(V2))  
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [9]                   
                                    >= [1] V1 + [1] V2 + [9]                   
                                    =  U51(isNeList(activate(V1)),activate(V2))
          
                         isNePal(V) =  [1] V + [2]                             
                                    >= [1] V + [2]                             
                                    =  U61(isQid(activate(V)))                 
          
          isNePal(n____(I,__(P,I))) =  [2] I + [1] P + [10]                    
                                    >= [1] I + [1] P + [4]                     
                                    =  U71(isQid(activate(I)),activate(P))     
          
                    isPal(n__nil()) =  [3]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__a()) =  [3]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__e()) =  [2]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__i()) =  [1]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__o()) =  [4]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                      isQid(n__u()) =  [2]                                     
                                    >= [0]                                     
                                    =  tt()                                    
          
                              nil() =  [3]                                     
                                    >= [0]                                     
                                    =  n__nil()                                
          
                                o() =  [0]                                     
                                    >= [3]                                     
                                    =  n__o()                                  
          
                                u() =  [1]                                     
                                    >= [1]                                     
                                    =  n__u()                                  
          
        Further, it can be verified that all rules not oriented are covered by the weightgap condition.
* Step 9: WeightGap WORST_CASE(?,O(n^1))
    + Considered Problem:
        - Strict TRS:
            __(X1,X2) -> n____(X1,X2)
            a() -> n__a()
            activate(X) -> X
            activate(n__i()) -> i()
            activate(n__nil()) -> nil()
            activate(n__u()) -> u()
            e() -> n__e()
            o() -> n__o()
        - Weak TRS:
            U11(tt()) -> tt()
            U21(tt(),V2) -> U22(isList(activate(V2)))
            U22(tt()) -> tt()
            U31(tt()) -> tt()
            U41(tt(),V2) -> U42(isNeList(activate(V2)))
            U42(tt()) -> tt()
            U51(tt(),V2) -> U52(isList(activate(V2)))
            U52(tt()) -> tt()
            U61(tt()) -> tt()
            U71(tt(),P) -> U72(isPal(activate(P)))
            U72(tt()) -> tt()
            U81(tt()) -> tt()
            activate(n____(X1,X2)) -> __(X1,X2)
            activate(n__a()) -> a()
            activate(n__e()) -> e()
            activate(n__o()) -> o()
            i() -> n__i()
            isList(V) -> U11(isNeList(activate(V)))
            isList(n____(V1,V2)) -> U21(isList(activate(V1)),activate(V2))
            isList(n__nil()) -> tt()
            isNeList(V) -> U31(isQid(activate(V)))
            isNeList(n____(V1,V2)) -> U41(isList(activate(V1)),activate(V2))
            isNeList(n____(V1,V2)) -> U51(isNeList(activate(V1)),activate(V2))
            isNePal(V) -> U61(isQid(activate(V)))
            isNePal(n____(I,__(P,I))) -> U71(isQid(activate(I)),activate(P))
            isPal(V) -> U81(isNePal(activate(V)))
            isPal(n__nil()) -> tt()
            isQid(n__a()) -> tt()
            isQid(n__e()) -> tt()
            isQid(n__i()) -> tt()
            isQid(n__o()) -> tt()
            isQid(n__u()) -> tt()
            nil() -> n__nil()
            u() -> n__u()
        - Signature:
            {U11/1,U21/2,U22/1,U31/1,U41/2,U42/1,U51/2,U52/1,U61/1,U71/2,U72/1,U81/1,__/2,a/0,activate/1,e/0,i/0
            ,isList/1,isNeList/1,isNePal/1,isPal/1,isQid/1,nil/0,o/0,u/0} / {n____/2,n__a/0,n__e/0,n__i/0,n__nil/0
            ,n__o/0,n__u/0,tt/0}
        - Obligation:
             runtime complexity wrt. defined symbols {U11,U21,U22,U31,U41,U42,U51,U52,U61,U71,U72,U81,__,a,activate,e,i
            ,isList,isNeList,isNePal,isPal,isQid,nil,o,u} and constructors {n____,n__a,n__e,n__i,n__nil,n__o,n__u,tt}
    + 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(U11) = {1},
            uargs(U21) = {1,2},
            uargs(U22) = {1},
            uargs(U31) = {1},
            uargs(U41) = {1,2},
            uargs(U42) = {1},
            uargs(U51) = {1,2},
            uargs(U52) = {1},
            uargs(U61) = {1},
            uargs(U71) = {1,2},
            uargs(U72) = {1},
            uargs(U81) = {1},
            uargs(activate) = {1},
            uargs(isList) = {1},
            uargs(isNeList) = {1},
            uargs(isNePal) = {1},
            uargs(isPal) = {1},
            uargs(isQid) = {1}
          
          Following symbols are considered usable:
            all
          TcT has computed the following interpretation:
                 p(U11) = [1] x1 + [0]         
                 p(U21) = [1] x1 + [1] x2 + [3]
                 p(U22) = [1] x1 + [0]         
                 p(U31) = [1] x1 + [0]         
                 p(U41) = [1] x1 + [1] x2 + [2]
                 p(U42) = [1] x1 + [0]         
                 p(U51) = [1] x1 + [1] x2 + [3]
                 p(U52) = [1] x1 + [0]         
                 p(U61) = [1] x1 + [0]         
                 p(U71) = [1] x1 + [1] x2 + [4]
                 p(U72) = [1] x1 + [1]         
                 p(U81) = [1] x1 + [0]         
                  p(__) = [1] x1 + [1] x2 + [0]
                   p(a) = [1]                  
            p(activate) = [1] x1 + [1]         
                   p(e) = [1]                  
                   p(i) = [0]                  
              p(isList) = [1] x1 + [3]         
            p(isNeList) = [1] x1 + [2]         
             p(isNePal) = [1] x1 + [2]         
               p(isPal) = [1] x1 + [3]         
               p(isQid) = [1] x1 + [1]         
               p(n____) = [1] x1 + [1] x2 + [5]
                p(n__a) = [0]                  
                p(n__e) = [0]                  
                p(n__i) = [0]                  
              p(n__nil) = [2]                  
                p(n__o) = [0]                  
                p(n__u) = [0]                  
                 p(nil) = [2]                  
                   p(o) = [1]                  
                  p(tt) = [1]                  
                   p(u) = [0]                  
          
          Following rules are strictly oriented:
                         a() = [1]        
                             > [0]        
                             = n__a()     
          
                 activate(X) = [1] X + [1]
                             > [1] X + [0]
                             = X          
          
            activate(n__i()) = [1]        
                             > [0]        
                             = i()        
          
          activate(n__nil()) = [3]        
                             > [2]        
                             = nil()      
          
            activate(n__u()) = [1]        
                             > [0]        
                             = u()        
          
                         e() = [1]        
                             > [0]        
                             = n__e()     
          
                         o() = [1]        
                             > [0]        
                             = n__o()     
          
          
          Following rules are (at-least) weakly oriented:
                          U11(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                       U21(tt(),V2) =  [1] V2 + [4]                            
                                    >= [1] V2 + [4]                            
                                    =  U22(isList(activate(V2)))               
          
                          U22(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                          U31(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                       U41(tt(),V2) =  [1] V2 + [3]                            
                                    >= [1] V2 + [3]                            
                                    =  U42(isNeList(activate(V2)))             
          
                          U42(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                       U51(tt(),V2) =  [1] V2 + [4]                            
                                    >= [1] V2 + [4]                            
                                    =  U52(isList(activate(V2)))               
          
                          U52(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                          U61(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                        U71(tt(),P) =  [1] P + [5]                             
                                    >= [1] P + [5]                             
                                    =  U72(isPal(activate(P)))                 
          
                          U72(tt()) =  [2]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                          U81(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                          __(X1,X2) =  [1] X1 + [1] X2 + [0]                   
                                    >= [1] X1 + [1] X2 + [5]                   
                                    =  n____(X1,X2)                            
          
             activate(n____(X1,X2)) =  [1] X1 + [1] X2 + [6]                   
                                    >= [1] X1 + [1] X2 + [0]                   
                                    =  __(X1,X2)                               
          
                   activate(n__a()) =  [1]                                     
                                    >= [1]                                     
                                    =  a()                                     
          
                   activate(n__e()) =  [1]                                     
                                    >= [1]                                     
                                    =  e()                                     
          
                   activate(n__o()) =  [1]                                     
                                    >= [1]                                     
                                    =  o()                                     
          
                                i() =  [0]                                     
                                    >= [0]                                     
                                    =  n__i()                                  
          
                          isList(V) =  [1] V + [3]                             
                                    >= [1] V + [3]                             
                                    =  U11(isNeList(activate(V)))              
          
               isList(n____(V1,V2)) =  [1] V1 + [1] V2 + [8]                   
                                    >= [1] V1 + [1] V2 + [8]                   
                                    =  U21(isList(activate(V1)),activate(V2))  
          
                   isList(n__nil()) =  [5]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                        isNeList(V) =  [1] V + [2]                             
                                    >= [1] V + [2]                             
                                    =  U31(isQid(activate(V)))                 
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [7]                   
                                    >= [1] V1 + [1] V2 + [7]                   
                                    =  U41(isList(activate(V1)),activate(V2))  
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [7]                   
                                    >= [1] V1 + [1] V2 + [7]                   
                                    =  U51(isNeList(activate(V1)),activate(V2))
          
                         isNePal(V) =  [1] V + [2]                             
                                    >= [1] V + [2]                             
                                    =  U61(isQid(activate(V)))                 
          
          isNePal(n____(I,__(P,I))) =  [2] I + [1] P + [7]                     
                                    >= [1] I + [1] P + [7]                     
                                    =  U71(isQid(activate(I)),activate(P))     
          
                           isPal(V) =  [1] V + [3]                             
                                    >= [1] V + [3]                             
                                    =  U81(isNePal(activate(V)))               
          
                    isPal(n__nil()) =  [5]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__a()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__e()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__i()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__o()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__u()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                              nil() =  [2]                                     
                                    >= [2]                                     
                                    =  n__nil()                                
          
                                u() =  [0]                                     
                                    >= [0]                                     
                                    =  n__u()                                  
          
        Further, it can be verified that all rules not oriented are covered by the weightgap condition.
* Step 10: WeightGap WORST_CASE(?,O(n^1))
    + Considered Problem:
        - Strict TRS:
            __(X1,X2) -> n____(X1,X2)
        - Weak TRS:
            U11(tt()) -> tt()
            U21(tt(),V2) -> U22(isList(activate(V2)))
            U22(tt()) -> tt()
            U31(tt()) -> tt()
            U41(tt(),V2) -> U42(isNeList(activate(V2)))
            U42(tt()) -> tt()
            U51(tt(),V2) -> U52(isList(activate(V2)))
            U52(tt()) -> tt()
            U61(tt()) -> tt()
            U71(tt(),P) -> U72(isPal(activate(P)))
            U72(tt()) -> tt()
            U81(tt()) -> tt()
            a() -> n__a()
            activate(X) -> X
            activate(n____(X1,X2)) -> __(X1,X2)
            activate(n__a()) -> a()
            activate(n__e()) -> e()
            activate(n__i()) -> i()
            activate(n__nil()) -> nil()
            activate(n__o()) -> o()
            activate(n__u()) -> u()
            e() -> n__e()
            i() -> n__i()
            isList(V) -> U11(isNeList(activate(V)))
            isList(n____(V1,V2)) -> U21(isList(activate(V1)),activate(V2))
            isList(n__nil()) -> tt()
            isNeList(V) -> U31(isQid(activate(V)))
            isNeList(n____(V1,V2)) -> U41(isList(activate(V1)),activate(V2))
            isNeList(n____(V1,V2)) -> U51(isNeList(activate(V1)),activate(V2))
            isNePal(V) -> U61(isQid(activate(V)))
            isNePal(n____(I,__(P,I))) -> U71(isQid(activate(I)),activate(P))
            isPal(V) -> U81(isNePal(activate(V)))
            isPal(n__nil()) -> tt()
            isQid(n__a()) -> tt()
            isQid(n__e()) -> tt()
            isQid(n__i()) -> tt()
            isQid(n__o()) -> tt()
            isQid(n__u()) -> tt()
            nil() -> n__nil()
            o() -> n__o()
            u() -> n__u()
        - Signature:
            {U11/1,U21/2,U22/1,U31/1,U41/2,U42/1,U51/2,U52/1,U61/1,U71/2,U72/1,U81/1,__/2,a/0,activate/1,e/0,i/0
            ,isList/1,isNeList/1,isNePal/1,isPal/1,isQid/1,nil/0,o/0,u/0} / {n____/2,n__a/0,n__e/0,n__i/0,n__nil/0
            ,n__o/0,n__u/0,tt/0}
        - Obligation:
             runtime complexity wrt. defined symbols {U11,U21,U22,U31,U41,U42,U51,U52,U61,U71,U72,U81,__,a,activate,e,i
            ,isList,isNeList,isNePal,isPal,isQid,nil,o,u} and constructors {n____,n__a,n__e,n__i,n__nil,n__o,n__u,tt}
    + 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(U11) = {1},
            uargs(U21) = {1,2},
            uargs(U22) = {1},
            uargs(U31) = {1},
            uargs(U41) = {1,2},
            uargs(U42) = {1},
            uargs(U51) = {1,2},
            uargs(U52) = {1},
            uargs(U61) = {1},
            uargs(U71) = {1,2},
            uargs(U72) = {1},
            uargs(U81) = {1},
            uargs(activate) = {1},
            uargs(isList) = {1},
            uargs(isNeList) = {1},
            uargs(isNePal) = {1},
            uargs(isPal) = {1},
            uargs(isQid) = {1}
          
          Following symbols are considered usable:
            all
          TcT has computed the following interpretation:
                 p(U11) = [1] x1 + [0]         
                 p(U21) = [1] x1 + [1] x2 + [4]
                 p(U22) = [1] x1 + [0]         
                 p(U31) = [1] x1 + [1]         
                 p(U41) = [1] x1 + [1] x2 + [3]
                 p(U42) = [1] x1 + [0]         
                 p(U51) = [1] x1 + [1] x2 + [3]
                 p(U52) = [1] x1 + [0]         
                 p(U61) = [1] x1 + [0]         
                 p(U71) = [1] x1 + [1] x2 + [5]
                 p(U72) = [1] x1 + [0]         
                 p(U81) = [1] x1 + [0]         
                  p(__) = [1] x1 + [1] x2 + [7]
                   p(a) = [5]                  
            p(activate) = [1] x1 + [1]         
                   p(e) = [4]                  
                   p(i) = [3]                  
              p(isList) = [1] x1 + [3]         
            p(isNeList) = [1] x1 + [2]         
             p(isNePal) = [1] x1 + [1]         
               p(isPal) = [1] x1 + [2]         
               p(isQid) = [1] x1 + [0]         
               p(n____) = [1] x1 + [1] x2 + [6]
                p(n__a) = [4]                  
                p(n__e) = [4]                  
                p(n__i) = [3]                  
              p(n__nil) = [4]                  
                p(n__o) = [1]                  
                p(n__u) = [1]                  
                 p(nil) = [4]                  
                   p(o) = [1]                  
                  p(tt) = [1]                  
                   p(u) = [1]                  
          
          Following rules are strictly oriented:
          __(X1,X2) = [1] X1 + [1] X2 + [7]
                    > [1] X1 + [1] X2 + [6]
                    = n____(X1,X2)         
          
          
          Following rules are (at-least) weakly oriented:
                          U11(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                       U21(tt(),V2) =  [1] V2 + [5]                            
                                    >= [1] V2 + [4]                            
                                    =  U22(isList(activate(V2)))               
          
                          U22(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                          U31(tt()) =  [2]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                       U41(tt(),V2) =  [1] V2 + [4]                            
                                    >= [1] V2 + [3]                            
                                    =  U42(isNeList(activate(V2)))             
          
                          U42(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                       U51(tt(),V2) =  [1] V2 + [4]                            
                                    >= [1] V2 + [4]                            
                                    =  U52(isList(activate(V2)))               
          
                          U52(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                          U61(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                        U71(tt(),P) =  [1] P + [6]                             
                                    >= [1] P + [3]                             
                                    =  U72(isPal(activate(P)))                 
          
                          U72(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                          U81(tt()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                                a() =  [5]                                     
                                    >= [4]                                     
                                    =  n__a()                                  
          
                        activate(X) =  [1] X + [1]                             
                                    >= [1] X + [0]                             
                                    =  X                                       
          
             activate(n____(X1,X2)) =  [1] X1 + [1] X2 + [7]                   
                                    >= [1] X1 + [1] X2 + [7]                   
                                    =  __(X1,X2)                               
          
                   activate(n__a()) =  [5]                                     
                                    >= [5]                                     
                                    =  a()                                     
          
                   activate(n__e()) =  [5]                                     
                                    >= [4]                                     
                                    =  e()                                     
          
                   activate(n__i()) =  [4]                                     
                                    >= [3]                                     
                                    =  i()                                     
          
                 activate(n__nil()) =  [5]                                     
                                    >= [4]                                     
                                    =  nil()                                   
          
                   activate(n__o()) =  [2]                                     
                                    >= [1]                                     
                                    =  o()                                     
          
                   activate(n__u()) =  [2]                                     
                                    >= [1]                                     
                                    =  u()                                     
          
                                e() =  [4]                                     
                                    >= [4]                                     
                                    =  n__e()                                  
          
                                i() =  [3]                                     
                                    >= [3]                                     
                                    =  n__i()                                  
          
                          isList(V) =  [1] V + [3]                             
                                    >= [1] V + [3]                             
                                    =  U11(isNeList(activate(V)))              
          
               isList(n____(V1,V2)) =  [1] V1 + [1] V2 + [9]                   
                                    >= [1] V1 + [1] V2 + [9]                   
                                    =  U21(isList(activate(V1)),activate(V2))  
          
                   isList(n__nil()) =  [7]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                        isNeList(V) =  [1] V + [2]                             
                                    >= [1] V + [2]                             
                                    =  U31(isQid(activate(V)))                 
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [8]                   
                                    >= [1] V1 + [1] V2 + [8]                   
                                    =  U41(isList(activate(V1)),activate(V2))  
          
             isNeList(n____(V1,V2)) =  [1] V1 + [1] V2 + [8]                   
                                    >= [1] V1 + [1] V2 + [7]                   
                                    =  U51(isNeList(activate(V1)),activate(V2))
          
                         isNePal(V) =  [1] V + [1]                             
                                    >= [1] V + [1]                             
                                    =  U61(isQid(activate(V)))                 
          
          isNePal(n____(I,__(P,I))) =  [2] I + [1] P + [14]                    
                                    >= [1] I + [1] P + [7]                     
                                    =  U71(isQid(activate(I)),activate(P))     
          
                           isPal(V) =  [1] V + [2]                             
                                    >= [1] V + [2]                             
                                    =  U81(isNePal(activate(V)))               
          
                    isPal(n__nil()) =  [6]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__a()) =  [4]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__e()) =  [4]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__i()) =  [3]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__o()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                      isQid(n__u()) =  [1]                                     
                                    >= [1]                                     
                                    =  tt()                                    
          
                              nil() =  [4]                                     
                                    >= [4]                                     
                                    =  n__nil()                                
          
                                o() =  [1]                                     
                                    >= [1]                                     
                                    =  n__o()                                  
          
                                u() =  [1]                                     
                                    >= [1]                                     
                                    =  n__u()                                  
          
        Further, it can be verified that all rules not oriented are covered by the weightgap condition.
* Step 11: EmptyProcessor WORST_CASE(?,O(1))
    + Considered Problem:
        - Weak TRS:
            U11(tt()) -> tt()
            U21(tt(),V2) -> U22(isList(activate(V2)))
            U22(tt()) -> tt()
            U31(tt()) -> tt()
            U41(tt(),V2) -> U42(isNeList(activate(V2)))
            U42(tt()) -> tt()
            U51(tt(),V2) -> U52(isList(activate(V2)))
            U52(tt()) -> tt()
            U61(tt()) -> tt()
            U71(tt(),P) -> U72(isPal(activate(P)))
            U72(tt()) -> tt()
            U81(tt()) -> tt()
            __(X1,X2) -> n____(X1,X2)
            a() -> n__a()
            activate(X) -> X
            activate(n____(X1,X2)) -> __(X1,X2)
            activate(n__a()) -> a()
            activate(n__e()) -> e()
            activate(n__i()) -> i()
            activate(n__nil()) -> nil()
            activate(n__o()) -> o()
            activate(n__u()) -> u()
            e() -> n__e()
            i() -> n__i()
            isList(V) -> U11(isNeList(activate(V)))
            isList(n____(V1,V2)) -> U21(isList(activate(V1)),activate(V2))
            isList(n__nil()) -> tt()
            isNeList(V) -> U31(isQid(activate(V)))
            isNeList(n____(V1,V2)) -> U41(isList(activate(V1)),activate(V2))
            isNeList(n____(V1,V2)) -> U51(isNeList(activate(V1)),activate(V2))
            isNePal(V) -> U61(isQid(activate(V)))
            isNePal(n____(I,__(P,I))) -> U71(isQid(activate(I)),activate(P))
            isPal(V) -> U81(isNePal(activate(V)))
            isPal(n__nil()) -> tt()
            isQid(n__a()) -> tt()
            isQid(n__e()) -> tt()
            isQid(n__i()) -> tt()
            isQid(n__o()) -> tt()
            isQid(n__u()) -> tt()
            nil() -> n__nil()
            o() -> n__o()
            u() -> n__u()
        - Signature:
            {U11/1,U21/2,U22/1,U31/1,U41/2,U42/1,U51/2,U52/1,U61/1,U71/2,U72/1,U81/1,__/2,a/0,activate/1,e/0,i/0
            ,isList/1,isNeList/1,isNePal/1,isPal/1,isQid/1,nil/0,o/0,u/0} / {n____/2,n__a/0,n__e/0,n__i/0,n__nil/0
            ,n__o/0,n__u/0,tt/0}
        - Obligation:
             runtime complexity wrt. defined symbols {U11,U21,U22,U31,U41,U42,U51,U52,U61,U71,U72,U81,__,a,activate,e,i
            ,isList,isNeList,isNePal,isPal,isQid,nil,o,u} and constructors {n____,n__a,n__e,n__i,n__nil,n__o,n__u,tt}
    + Applied Processor:
        EmptyProcessor
    + Details:
        The problem is already closed. The intended complexity is O(1).

WORST_CASE(?,O(n^1))