YES Problem: cond1(true(),x) -> cond2(even(x),x) cond2(true(),x) -> cond1(neq(x,0()),div2(x)) cond2(false(),x) -> cond1(neq(x,0()),p(x)) neq(0(),0()) -> false() neq(0(),s(x)) -> true() neq(s(x),0()) -> true() neq(s(x),s(y())) -> neq(x,y()) even(0()) -> true() even(s(0())) -> false() even(s(s(x))) -> even(x) div2(0()) -> 0() div2(s(0())) -> 0() div2(s(s(x))) -> s(div2(x)) p(0()) -> 0() p(s(x)) -> x Proof: DP Processor: DPs: cond1#(true(),x) -> even#(x) cond1#(true(),x) -> cond2#(even(x),x) cond2#(true(),x) -> div2#(x) cond2#(true(),x) -> neq#(x,0()) cond2#(true(),x) -> cond1#(neq(x,0()),div2(x)) cond2#(false(),x) -> p#(x) cond2#(false(),x) -> neq#(x,0()) cond2#(false(),x) -> cond1#(neq(x,0()),p(x)) neq#(s(x),s(y())) -> neq#(x,y()) even#(s(s(x))) -> even#(x) div2#(s(s(x))) -> div2#(x) TRS: cond1(true(),x) -> cond2(even(x),x) cond2(true(),x) -> cond1(neq(x,0()),div2(x)) cond2(false(),x) -> cond1(neq(x,0()),p(x)) neq(0(),0()) -> false() neq(0(),s(x)) -> true() neq(s(x),0()) -> true() neq(s(x),s(y())) -> neq(x,y()) even(0()) -> true() even(s(0())) -> false() even(s(s(x))) -> even(x) div2(0()) -> 0() div2(s(0())) -> 0() div2(s(s(x))) -> s(div2(x)) p(0()) -> 0() p(s(x)) -> x Usable Rule Processor: DPs: cond1#(true(),x) -> even#(x) cond1#(true(),x) -> cond2#(even(x),x) cond2#(true(),x) -> div2#(x) cond2#(true(),x) -> neq#(x,0()) cond2#(true(),x) -> cond1#(neq(x,0()),div2(x)) cond2#(false(),x) -> p#(x) cond2#(false(),x) -> neq#(x,0()) cond2#(false(),x) -> cond1#(neq(x,0()),p(x)) neq#(s(x),s(y())) -> neq#(x,y()) even#(s(s(x))) -> even#(x) div2#(s(s(x))) -> div2#(x) TRS: even(0()) -> true() even(s(0())) -> false() even(s(s(x))) -> even(x) div2(0()) -> 0() div2(s(0())) -> 0() div2(s(s(x))) -> s(div2(x)) neq(0(),0()) -> false() neq(s(x),0()) -> true() p(0()) -> 0() p(s(x)) -> x Matrix Interpretation Processor: dim=1 usable rules: div2(0()) -> 0() div2(s(0())) -> 0() div2(s(s(x))) -> s(div2(x)) neq(0(),0()) -> false() neq(s(x),0()) -> true() p(0()) -> 0() p(s(x)) -> x interpretation: [p#](x0) = 0, [neq#](x0, x1) = x0 + 3/2x1, [div2#](x0) = 1/2x0, [cond2#](x0, x1) = 2x1 + 1/2, [even#](x0) = 3/2x0, [cond1#](x0, x1) = 1/2x0 + 3x1, [y] = 2, [s](x0) = 2x0 + 2, [p](x0) = 1/2x0, [false] = 0, [div2](x0) = 1/2x0, [neq](x0, x1) = x0, [0] = 0, [even](x0) = 1, [true] = 2 orientation: cond1#(true(),x) = 3x + 1 >= 3/2x = even#(x) cond1#(true(),x) = 3x + 1 >= 2x + 1/2 = cond2#(even(x),x) cond2#(true(),x) = 2x + 1/2 >= 1/2x = div2#(x) cond2#(true(),x) = 2x + 1/2 >= x = neq#(x,0()) cond2#(true(),x) = 2x + 1/2 >= 2x = cond1#(neq(x,0()),div2(x)) cond2#(false(),x) = 2x + 1/2 >= 0 = p#(x) cond2#(false(),x) = 2x + 1/2 >= x = neq#(x,0()) cond2#(false(),x) = 2x + 1/2 >= 2x = cond1#(neq(x,0()),p(x)) neq#(s(x),s(y())) = 2x + 11 >= x + 3 = neq#(x,y()) even#(s(s(x))) = 6x + 9 >= 3/2x = even#(x) div2#(s(s(x))) = 2x + 3 >= 1/2x = div2#(x) even(0()) = 1 >= 2 = true() even(s(0())) = 1 >= 0 = false() even(s(s(x))) = 1 >= 1 = even(x) div2(0()) = 0 >= 0 = 0() div2(s(0())) = 1 >= 0 = 0() div2(s(s(x))) = 2x + 3 >= x + 2 = s(div2(x)) neq(0(),0()) = 0 >= 0 = false() neq(s(x),0()) = 2x + 2 >= 2 = true() p(0()) = 0 >= 0 = 0() p(s(x)) = x + 1 >= x = x problem: DPs: TRS: even(0()) -> true() even(s(0())) -> false() even(s(s(x))) -> even(x) div2(0()) -> 0() div2(s(0())) -> 0() div2(s(s(x))) -> s(div2(x)) neq(0(),0()) -> false() neq(s(x),0()) -> true() p(0()) -> 0() p(s(x)) -> x Qed