YES Problem: le(0(),y) -> true() le(s(x),0()) -> false() le(s(x),s(y)) -> le(x,y) pred(s(x)) -> x minus(x,0()) -> x minus(x,s(y)) -> pred(minus(x,y)) mod(0(),y) -> 0() mod(s(x),0()) -> 0() mod(s(x),s(y)) -> if_mod(le(y,x),s(x),s(y)) if_mod(true(),s(x),s(y)) -> mod(minus(x,y),s(y)) if_mod(false(),s(x),s(y)) -> s(x) Proof: DP Processor: DPs: le#(s(x),s(y)) -> le#(x,y) minus#(x,s(y)) -> minus#(x,y) minus#(x,s(y)) -> pred#(minus(x,y)) mod#(s(x),s(y)) -> le#(y,x) mod#(s(x),s(y)) -> if_mod#(le(y,x),s(x),s(y)) if_mod#(true(),s(x),s(y)) -> minus#(x,y) if_mod#(true(),s(x),s(y)) -> mod#(minus(x,y),s(y)) TRS: le(0(),y) -> true() le(s(x),0()) -> false() le(s(x),s(y)) -> le(x,y) pred(s(x)) -> x minus(x,0()) -> x minus(x,s(y)) -> pred(minus(x,y)) mod(0(),y) -> 0() mod(s(x),0()) -> 0() mod(s(x),s(y)) -> if_mod(le(y,x),s(x),s(y)) if_mod(true(),s(x),s(y)) -> mod(minus(x,y),s(y)) if_mod(false(),s(x),s(y)) -> s(x) TDG Processor: DPs: le#(s(x),s(y)) -> le#(x,y) minus#(x,s(y)) -> minus#(x,y) minus#(x,s(y)) -> pred#(minus(x,y)) mod#(s(x),s(y)) -> le#(y,x) mod#(s(x),s(y)) -> if_mod#(le(y,x),s(x),s(y)) if_mod#(true(),s(x),s(y)) -> minus#(x,y) if_mod#(true(),s(x),s(y)) -> mod#(minus(x,y),s(y)) TRS: le(0(),y) -> true() le(s(x),0()) -> false() le(s(x),s(y)) -> le(x,y) pred(s(x)) -> x minus(x,0()) -> x minus(x,s(y)) -> pred(minus(x,y)) mod(0(),y) -> 0() mod(s(x),0()) -> 0() mod(s(x),s(y)) -> if_mod(le(y,x),s(x),s(y)) if_mod(true(),s(x),s(y)) -> mod(minus(x,y),s(y)) if_mod(false(),s(x),s(y)) -> s(x) graph: if_mod#(true(),s(x),s(y)) -> mod#(minus(x,y),s(y)) -> mod#(s(x),s(y)) -> if_mod#(le(y,x),s(x),s(y)) if_mod#(true(),s(x),s(y)) -> mod#(minus(x,y),s(y)) -> mod#(s(x),s(y)) -> le#(y,x) if_mod#(true(),s(x),s(y)) -> minus#(x,y) -> minus#(x,s(y)) -> pred#(minus(x,y)) if_mod#(true(),s(x),s(y)) -> minus#(x,y) -> minus#(x,s(y)) -> minus#(x,y) mod#(s(x),s(y)) -> if_mod#(le(y,x),s(x),s(y)) -> if_mod#(true(),s(x),s(y)) -> mod#(minus(x,y),s(y)) mod#(s(x),s(y)) -> if_mod#(le(y,x),s(x),s(y)) -> if_mod#(true(),s(x),s(y)) -> minus#(x,y) mod#(s(x),s(y)) -> le#(y,x) -> le#(s(x),s(y)) -> le#(x,y) minus#(x,s(y)) -> minus#(x,y) -> minus#(x,s(y)) -> pred#(minus(x,y)) minus#(x,s(y)) -> minus#(x,y) -> minus#(x,s(y)) -> minus#(x,y) le#(s(x),s(y)) -> le#(x,y) -> le#(s(x),s(y)) -> le#(x,y) SCC Processor: #sccs: 3 #rules: 4 #arcs: 10/49 DPs: if_mod#(true(),s(x),s(y)) -> mod#(minus(x,y),s(y)) mod#(s(x),s(y)) -> if_mod#(le(y,x),s(x),s(y)) TRS: le(0(),y) -> true() le(s(x),0()) -> false() le(s(x),s(y)) -> le(x,y) pred(s(x)) -> x minus(x,0()) -> x minus(x,s(y)) -> pred(minus(x,y)) mod(0(),y) -> 0() mod(s(x),0()) -> 0() mod(s(x),s(y)) -> if_mod(le(y,x),s(x),s(y)) if_mod(true(),s(x),s(y)) -> mod(minus(x,y),s(y)) if_mod(false(),s(x),s(y)) -> s(x) Arctic Interpretation Processor: dimension: 1 interpretation: [if_mod#](x0, x1, x2) = 1x1 + 0, [mod#](x0, x1) = 1x0, [if_mod](x0, x1, x2) = 4x1 + 2x2 + 0, [mod](x0, x1) = 4x0 + 2x1 + 0, [minus](x0, x1) = 1x0, [pred](x0) = x0, [false] = 1, [s](x0) = 2x0 + 2, [true] = 6, [le](x0, x1) = 5x0 + x1 + 6, [0] = 0 orientation: if_mod#(true(),s(x),s(y)) = 3x + 3 >= 2x = mod#(minus(x,y),s(y)) mod#(s(x),s(y)) = 3x + 3 >= 3x + 3 = if_mod#(le(y,x),s(x),s(y)) le(0(),y) = y + 6 >= 6 = true() le(s(x),0()) = 7x + 7 >= 1 = false() le(s(x),s(y)) = 7x + 2y + 7 >= 5x + y + 6 = le(x,y) pred(s(x)) = 2x + 2 >= x = x minus(x,0()) = 1x >= x = x minus(x,s(y)) = 1x >= 1x = pred(minus(x,y)) mod(0(),y) = 2y + 4 >= 0 = 0() mod(s(x),0()) = 6x + 6 >= 0 = 0() mod(s(x),s(y)) = 6x + 4y + 6 >= 6x + 4y + 6 = if_mod(le(y,x),s(x),s(y)) if_mod(true(),s(x),s(y)) = 6x + 4y + 6 >= 5x + 4y + 4 = mod(minus(x,y),s(y)) if_mod(false(),s(x),s(y)) = 6x + 4y + 6 >= 2x + 2 = s(x) problem: DPs: mod#(s(x),s(y)) -> if_mod#(le(y,x),s(x),s(y)) TRS: le(0(),y) -> true() le(s(x),0()) -> false() le(s(x),s(y)) -> le(x,y) pred(s(x)) -> x minus(x,0()) -> x minus(x,s(y)) -> pred(minus(x,y)) mod(0(),y) -> 0() mod(s(x),0()) -> 0() mod(s(x),s(y)) -> if_mod(le(y,x),s(x),s(y)) if_mod(true(),s(x),s(y)) -> mod(minus(x,y),s(y)) if_mod(false(),s(x),s(y)) -> s(x) SCC Processor: #sccs: 0 #rules: 0 #arcs: 2/1 DPs: minus#(x,s(y)) -> minus#(x,y) TRS: le(0(),y) -> true() le(s(x),0()) -> false() le(s(x),s(y)) -> le(x,y) pred(s(x)) -> x minus(x,0()) -> x minus(x,s(y)) -> pred(minus(x,y)) mod(0(),y) -> 0() mod(s(x),0()) -> 0() mod(s(x),s(y)) -> if_mod(le(y,x),s(x),s(y)) if_mod(true(),s(x),s(y)) -> mod(minus(x,y),s(y)) if_mod(false(),s(x),s(y)) -> s(x) Subterm Criterion Processor: simple projection: pi(minus#) = 1 problem: DPs: TRS: le(0(),y) -> true() le(s(x),0()) -> false() le(s(x),s(y)) -> le(x,y) pred(s(x)) -> x minus(x,0()) -> x minus(x,s(y)) -> pred(minus(x,y)) mod(0(),y) -> 0() mod(s(x),0()) -> 0() mod(s(x),s(y)) -> if_mod(le(y,x),s(x),s(y)) if_mod(true(),s(x),s(y)) -> mod(minus(x,y),s(y)) if_mod(false(),s(x),s(y)) -> s(x) Qed DPs: le#(s(x),s(y)) -> le#(x,y) TRS: le(0(),y) -> true() le(s(x),0()) -> false() le(s(x),s(y)) -> le(x,y) pred(s(x)) -> x minus(x,0()) -> x minus(x,s(y)) -> pred(minus(x,y)) mod(0(),y) -> 0() mod(s(x),0()) -> 0() mod(s(x),s(y)) -> if_mod(le(y,x),s(x),s(y)) if_mod(true(),s(x),s(y)) -> mod(minus(x,y),s(y)) if_mod(false(),s(x),s(y)) -> s(x) Subterm Criterion Processor: simple projection: pi(le#) = 1 problem: DPs: TRS: le(0(),y) -> true() le(s(x),0()) -> false() le(s(x),s(y)) -> le(x,y) pred(s(x)) -> x minus(x,0()) -> x minus(x,s(y)) -> pred(minus(x,y)) mod(0(),y) -> 0() mod(s(x),0()) -> 0() mod(s(x),s(y)) -> if_mod(le(y,x),s(x),s(y)) if_mod(true(),s(x),s(y)) -> mod(minus(x,y),s(y)) if_mod(false(),s(x),s(y)) -> s(x) Qed