YES Problem: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) Proof: DP Processor: DPs: minus#(s(x),s(y)) -> minus#(x,y) quot#(s(x),s(y)) -> minus#(x,y) quot#(s(x),s(y)) -> quot#(minus(x,y),s(y)) plus#(s(x),y) -> plus#(x,y) minus#(minus(x,y),z) -> plus#(y,z) minus#(minus(x,y),z) -> minus#(x,plus(y,z)) app#(cons(x,l),k) -> app#(l,k) sum#(cons(x,cons(y,l))) -> plus#(x,y) sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) sum#(app(l,cons(x,cons(y,k)))) -> app#(l,sum(cons(x,cons(y,k)))) sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) TDG Processor: DPs: minus#(s(x),s(y)) -> minus#(x,y) quot#(s(x),s(y)) -> minus#(x,y) quot#(s(x),s(y)) -> quot#(minus(x,y),s(y)) plus#(s(x),y) -> plus#(x,y) minus#(minus(x,y),z) -> plus#(y,z) minus#(minus(x,y),z) -> minus#(x,plus(y,z)) app#(cons(x,l),k) -> app#(l,k) sum#(cons(x,cons(y,l))) -> plus#(x,y) sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) sum#(app(l,cons(x,cons(y,k)))) -> app#(l,sum(cons(x,cons(y,k)))) sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) graph: sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) -> sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) -> sum#(app(l,cons(x,cons(y,k)))) -> app#(l,sum(cons(x,cons(y,k)))) sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) -> sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) -> sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) -> sum#(cons(x,cons(y,l))) -> plus#(x,y) sum#(cons(x,cons(y,l))) -> plus#(x,y) -> plus#(s(x),y) -> plus#(x,y) sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) -> sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) -> sum#(app(l,cons(x,cons(y,k)))) -> app#(l,sum(cons(x,cons(y,k)))) sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) -> sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) -> sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) -> sum#(cons(x,cons(y,l))) -> plus#(x,y) sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) -> sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) -> sum#(app(l,cons(x,cons(y,k)))) -> app#(l,sum(cons(x,cons(y,k)))) sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) -> sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) -> sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) -> sum#(cons(x,cons(y,l))) -> plus#(x,y) sum#(app(l,cons(x,cons(y,k)))) -> app#(l,sum(cons(x,cons(y,k)))) -> app#(cons(x,l),k) -> app#(l,k) app#(cons(x,l),k) -> app#(l,k) -> app#(cons(x,l),k) -> app#(l,k) plus#(s(x),y) -> plus#(x,y) -> plus#(s(x),y) -> plus#(x,y) quot#(s(x),s(y)) -> quot#(minus(x,y),s(y)) -> quot#(s(x),s(y)) -> quot#(minus(x,y),s(y)) quot#(s(x),s(y)) -> quot#(minus(x,y),s(y)) -> quot#(s(x),s(y)) -> minus#(x,y) quot#(s(x),s(y)) -> minus#(x,y) -> minus#(minus(x,y),z) -> minus#(x,plus(y,z)) quot#(s(x),s(y)) -> minus#(x,y) -> minus#(minus(x,y),z) -> plus#(y,z) quot#(s(x),s(y)) -> minus#(x,y) -> minus#(s(x),s(y)) -> minus#(x,y) minus#(s(x),s(y)) -> minus#(x,y) -> minus#(minus(x,y),z) -> minus#(x,plus(y,z)) minus#(s(x),s(y)) -> minus#(x,y) -> minus#(minus(x,y),z) -> plus#(y,z) minus#(s(x),s(y)) -> minus#(x,y) -> minus#(s(x),s(y)) -> minus#(x,y) minus#(minus(x,y),z) -> plus#(y,z) -> plus#(s(x),y) -> plus#(x,y) minus#(minus(x,y),z) -> minus#(x,plus(y,z)) -> minus#(minus(x,y),z) -> minus#(x,plus(y,z)) minus#(minus(x,y),z) -> minus#(x,plus(y,z)) -> minus#(minus(x,y),z) -> plus#(y,z) minus#(minus(x,y),z) -> minus#(x,plus(y,z)) -> minus#(s(x),s(y)) -> minus#(x,y) SCC Processor: #sccs: 5 #rules: 8 #arcs: 31/144 DPs: quot#(s(x),s(y)) -> quot#(minus(x,y),s(y)) TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) KBO Processor: argument filtering: pi(0) = [] pi(minus) = 0 pi(s) = [0] pi(quot) = 0 pi(plus) = [0,1] pi(nil) = [] pi(app) = [0,1] pi(cons) = [] pi(sum) = [] pi(quot#) = 0 weight function: w0 = 1 w(quot#) = w(sum) = w(cons) = w(app) = w(nil) = w(s) = w(0) = 1 w(plus) = w(quot) = w(minus) = 0 precedence: app > sum > plus > quot# ~ cons ~ nil ~ quot ~ s ~ minus ~ 0 problem: DPs: TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) Qed DPs: minus#(s(x),s(y)) -> minus#(x,y) minus#(minus(x,y),z) -> minus#(x,plus(y,z)) TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) Subterm Criterion Processor: simple projection: pi(minus#) = 0 problem: DPs: TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) Qed DPs: sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) EDG Processor: DPs: sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) graph: sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) -> sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) -> sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) -> sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) -> sum#(app(l,cons(x,cons(y,k)))) -> sum#(cons(x,cons(y,k))) sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) -> sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) SCC Processor: #sccs: 2 #rules: 2 #arcs: 5/9 DPs: sum#(app(l,cons(x,cons(y,k)))) -> sum#(app(l,sum(cons(x,cons(y,k))))) TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) Matrix Interpretation Processor: dim=1 interpretation: [sum#](x0) = 4x0 + 4, [sum](x0) = 1, [cons](x0, x1) = x1 + 1, [app](x0, x1) = x0 + x1 + 2, [nil] = 0, [plus](x0, x1) = 2x1 + 2, [quot](x0, x1) = 0, [s](x0) = x0, [minus](x0, x1) = 2x0, [0] = 0 orientation: sum#(app(l,cons(x,cons(y,k)))) = 4k + 4l + 20 >= 4l + 16 = sum#(app(l,sum(cons(x,cons(y,k))))) minus(x,0()) = 2x >= x = x minus(s(x),s(y)) = 2x >= 2x = minus(x,y) quot(0(),s(y)) = 0 >= 0 = 0() quot(s(x),s(y)) = 0 >= 0 = s(quot(minus(x,y),s(y))) plus(0(),y) = 2y + 2 >= y = y plus(s(x),y) = 2y + 2 >= 2y + 2 = s(plus(x,y)) minus(minus(x,y),z) = 4x >= 2x = minus(x,plus(y,z)) app(nil(),k) = k + 2 >= k = k app(l,nil()) = l + 2 >= l = l app(cons(x,l),k) = k + l + 3 >= k + l + 3 = cons(x,app(l,k)) sum(cons(x,nil())) = 1 >= 1 = cons(x,nil()) sum(cons(x,cons(y,l))) = 1 >= 1 = sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) = 1 >= 1 = sum(app(l,sum(cons(x,cons(y,k))))) problem: DPs: TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) Qed DPs: sum#(cons(x,cons(y,l))) -> sum#(cons(plus(x,y),l)) TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) KBO Processor: argument filtering: pi(0) = [] pi(minus) = [0] pi(s) = 0 pi(quot) = [] pi(plus) = 1 pi(nil) = [] pi(app) = [0,1] pi(cons) = [0,1] pi(sum) = 0 pi(sum#) = 0 weight function: w0 = 1 w(sum#) = w(cons) = w(app) = w(nil) = w(quot) = w(0) = 1 w(sum) = w(plus) = w(s) = w(minus) = 0 precedence: app ~ nil ~ quot ~ minus > sum# ~ sum ~ cons ~ plus ~ s ~ 0 problem: DPs: TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) Qed DPs: app#(cons(x,l),k) -> app#(l,k) TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) Subterm Criterion Processor: simple projection: pi(app#) = 0 problem: DPs: TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) Qed DPs: plus#(s(x),y) -> plus#(x,y) TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) Subterm Criterion Processor: simple projection: pi(plus#) = 0 problem: DPs: TRS: minus(x,0()) -> x minus(s(x),s(y)) -> minus(x,y) quot(0(),s(y)) -> 0() quot(s(x),s(y)) -> s(quot(minus(x,y),s(y))) plus(0(),y) -> y plus(s(x),y) -> s(plus(x,y)) minus(minus(x,y),z) -> minus(x,plus(y,z)) app(nil(),k) -> k app(l,nil()) -> l app(cons(x,l),k) -> cons(x,app(l,k)) sum(cons(x,nil())) -> cons(x,nil()) sum(cons(x,cons(y,l))) -> sum(cons(plus(x,y),l)) sum(app(l,cons(x,cons(y,k)))) -> sum(app(l,sum(cons(x,cons(y,k))))) Qed