/export/starexec/sandbox/solver/bin/starexec_run_ttt2-1.17+nonreach /export/starexec/sandbox/benchmark/theBenchmark.xml /export/starexec/sandbox/output/output_files -------------------------------------------------------------------------------- YES Problem: app(app(minus(),x),0()) -> x app(app(minus(),app(s(),x)),app(s(),y)) -> app(app(minus(),x),y) app(app(quot(),0()),app(s(),y)) -> 0() app(app(quot(),app(s(),x)),app(s(),y)) -> app(s(),app(app(quot(),app(app(minus(),x),y)),app(s(),y))) app(log(),app(s(),0())) -> 0() app(log(),app(s(),app(s(),x))) -> app(s(),app(log(),app(s(),app(app(quot(),x),app(s(),app(s(),0())))))) app(app(map(),f),nil()) -> nil() app(app(map(),f),app(app(cons(),x),xs)) -> app(app(cons(),app(f,x)),app(app(map(),f),xs)) app(app(filter(),f),nil()) -> nil() app(app(filter(),f),app(app(cons(),x),xs)) -> app(app(app(app(filter2(),app(f,x)),f),x),xs) app(app(app(app(filter2(),true()),f),x),xs) -> app(app(cons(),x),app(app(filter(),f),xs)) app(app(app(app(filter2(),false()),f),x),xs) -> app(app(filter(),f),xs) Proof: Extended Uncurrying Processor: application symbol: app symbol table: false ==> false0/0 true ==> true0/0 filter2 ==> filter20/0 filter21/1 filter22/2 filter23/3 filter24/4 filter ==> filter0/0 filter1/1 filter2/2 cons ==> cons0/0 cons1/1 cons2/2 nil ==> nil0/0 map ==> map0/0 map1/1 map2/2 log ==> log0/0 log1/1 quot ==> quot0/0 quot1/1 quot2/2 s ==> s0/0 s1/1 0 ==> 00/0 minus ==> minus0/0 minus1/1 minus2/2 uncurry-rules: app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) eta-rules: problem: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) DP Processor: DPs: minus{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) quot{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) quot{2,#}(s1(x),s1(y)) -> quot{2,#}(minus2(x,y),s1(y)) log{1,#}(s1(s1(x))) -> quot{2,#}(x,s1(s1(00()))) log{1,#}(s1(s1(x))) -> log{1,#}(s1(quot2(x,s1(s1(00()))))) map{2,#}(f,cons2(x,xs)) -> map{2,#}(f,xs) map{2,#}(f,cons2(x,xs)) -> app#(f,x) filter{2,#}(f,cons2(x,xs)) -> app#(f,x) filter{2,#}(f,cons2(x,xs)) -> filter2{4,#}(app(f,x),f,x,xs) filter2{4,#}(true0(),f,x,xs) -> filter{2,#}(f,xs) filter2{4,#}(false0(),f,x,xs) -> filter{2,#}(f,xs) app#(minus1(x4),x5) -> minus{2,#}(x4,x5) app#(quot1(x10),x11) -> quot{2,#}(x10,x11) app#(log0(),x13) -> log{1,#}(x13) app#(map1(x15),x16) -> map{2,#}(x15,x16) app#(filter1(x22),x23) -> filter{2,#}(x22,x23) app#(filter23(x25,x26,x27),x28) -> filter2{4,#}(x25,x26,x27,x28) TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) TDG Processor: DPs: minus{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) quot{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) quot{2,#}(s1(x),s1(y)) -> quot{2,#}(minus2(x,y),s1(y)) log{1,#}(s1(s1(x))) -> quot{2,#}(x,s1(s1(00()))) log{1,#}(s1(s1(x))) -> log{1,#}(s1(quot2(x,s1(s1(00()))))) map{2,#}(f,cons2(x,xs)) -> map{2,#}(f,xs) map{2,#}(f,cons2(x,xs)) -> app#(f,x) filter{2,#}(f,cons2(x,xs)) -> app#(f,x) filter{2,#}(f,cons2(x,xs)) -> filter2{4,#}(app(f,x),f,x,xs) filter2{4,#}(true0(),f,x,xs) -> filter{2,#}(f,xs) filter2{4,#}(false0(),f,x,xs) -> filter{2,#}(f,xs) app#(minus1(x4),x5) -> minus{2,#}(x4,x5) app#(quot1(x10),x11) -> quot{2,#}(x10,x11) app#(log0(),x13) -> log{1,#}(x13) app#(map1(x15),x16) -> map{2,#}(x15,x16) app#(filter1(x22),x23) -> filter{2,#}(x22,x23) app#(filter23(x25,x26,x27),x28) -> filter2{4,#}(x25,x26,x27,x28) TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) graph: filter2{4,#}(false0(),f,x,xs) -> filter{2,#}(f,xs) -> filter{2,#}(f,cons2(x,xs)) -> filter2{4,#}(app(f,x),f,x,xs) filter2{4,#}(false0(),f,x,xs) -> filter{2,#}(f,xs) -> filter{2,#}(f,cons2(x,xs)) -> app#(f,x) filter2{4,#}(true0(),f,x,xs) -> filter{2,#}(f,xs) -> filter{2,#}(f,cons2(x,xs)) -> filter2{4,#}(app(f,x),f,x,xs) filter2{4,#}(true0(),f,x,xs) -> filter{2,#}(f,xs) -> filter{2,#}(f,cons2(x,xs)) -> app#(f,x) filter{2,#}(f,cons2(x,xs)) -> filter2{4,#}(app(f,x),f,x,xs) -> filter2{4,#}(false0(),f,x,xs) -> filter{2,#}(f,xs) filter{2,#}(f,cons2(x,xs)) -> filter2{4,#}(app(f,x),f,x,xs) -> filter2{4,#}(true0(),f,x,xs) -> filter{2,#}(f,xs) filter{2,#}(f,cons2(x,xs)) -> app#(f,x) -> app#(filter23(x25,x26,x27),x28) -> filter2{4,#}(x25,x26,x27,x28) filter{2,#}(f,cons2(x,xs)) -> app#(f,x) -> app#(filter1(x22),x23) -> filter{2,#}(x22,x23) filter{2,#}(f,cons2(x,xs)) -> app#(f,x) -> app#(map1(x15),x16) -> map{2,#}(x15,x16) filter{2,#}(f,cons2(x,xs)) -> app#(f,x) -> app#(log0(),x13) -> log{1,#}(x13) filter{2,#}(f,cons2(x,xs)) -> app#(f,x) -> app#(quot1(x10),x11) -> quot{2,#}(x10,x11) filter{2,#}(f,cons2(x,xs)) -> app#(f,x) -> app#(minus1(x4),x5) -> minus{2,#}(x4,x5) app#(filter23(x25,x26,x27),x28) -> filter2{4,#}(x25,x26,x27,x28) -> filter2{4,#}(false0(),f,x,xs) -> filter{2,#}(f,xs) app#(filter23(x25,x26,x27),x28) -> filter2{4,#}(x25,x26,x27,x28) -> filter2{4,#}(true0(),f,x,xs) -> filter{2,#}(f,xs) app#(filter1(x22),x23) -> filter{2,#}(x22,x23) -> filter{2,#}(f,cons2(x,xs)) -> filter2{4,#}(app(f,x),f,x,xs) app#(filter1(x22),x23) -> filter{2,#}(x22,x23) -> filter{2,#}(f,cons2(x,xs)) -> app#(f,x) app#(map1(x15),x16) -> map{2,#}(x15,x16) -> map{2,#}(f,cons2(x,xs)) -> app#(f,x) app#(map1(x15),x16) -> map{2,#}(x15,x16) -> map{2,#}(f,cons2(x,xs)) -> map{2,#}(f,xs) app#(log0(),x13) -> log{1,#}(x13) -> log{1,#}(s1(s1(x))) -> log{1,#}(s1(quot2(x,s1(s1(00()))))) app#(log0(),x13) -> log{1,#}(x13) -> log{1,#}(s1(s1(x))) -> quot{2,#}(x,s1(s1(00()))) app#(quot1(x10),x11) -> quot{2,#}(x10,x11) -> quot{2,#}(s1(x),s1(y)) -> quot{2,#}(minus2(x,y),s1(y)) app#(quot1(x10),x11) -> quot{2,#}(x10,x11) -> quot{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) app#(minus1(x4),x5) -> minus{2,#}(x4,x5) -> minus{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) map{2,#}(f,cons2(x,xs)) -> app#(f,x) -> app#(filter23(x25,x26,x27),x28) -> filter2{4,#}(x25,x26,x27,x28) map{2,#}(f,cons2(x,xs)) -> app#(f,x) -> app#(filter1(x22),x23) -> filter{2,#}(x22,x23) map{2,#}(f,cons2(x,xs)) -> app#(f,x) -> app#(map1(x15),x16) -> map{2,#}(x15,x16) map{2,#}(f,cons2(x,xs)) -> app#(f,x) -> app#(log0(),x13) -> log{1,#}(x13) map{2,#}(f,cons2(x,xs)) -> app#(f,x) -> app#(quot1(x10),x11) -> quot{2,#}(x10,x11) map{2,#}(f,cons2(x,xs)) -> app#(f,x) -> app#(minus1(x4),x5) -> minus{2,#}(x4,x5) map{2,#}(f,cons2(x,xs)) -> map{2,#}(f,xs) -> map{2,#}(f,cons2(x,xs)) -> app#(f,x) map{2,#}(f,cons2(x,xs)) -> map{2,#}(f,xs) -> map{2,#}(f,cons2(x,xs)) -> map{2,#}(f,xs) log{1,#}(s1(s1(x))) -> log{1,#}(s1(quot2(x,s1(s1(00()))))) -> log{1,#}(s1(s1(x))) -> log{1,#}(s1(quot2(x,s1(s1(00()))))) log{1,#}(s1(s1(x))) -> log{1,#}(s1(quot2(x,s1(s1(00()))))) -> log{1,#}(s1(s1(x))) -> quot{2,#}(x,s1(s1(00()))) log{1,#}(s1(s1(x))) -> quot{2,#}(x,s1(s1(00()))) -> quot{2,#}(s1(x),s1(y)) -> quot{2,#}(minus2(x,y),s1(y)) log{1,#}(s1(s1(x))) -> quot{2,#}(x,s1(s1(00()))) -> quot{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) quot{2,#}(s1(x),s1(y)) -> quot{2,#}(minus2(x,y),s1(y)) -> quot{2,#}(s1(x),s1(y)) -> quot{2,#}(minus2(x,y),s1(y)) quot{2,#}(s1(x),s1(y)) -> quot{2,#}(minus2(x,y),s1(y)) -> quot{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) quot{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) -> minus{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) minus{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) -> minus{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) SCC Processor: #sccs: 4 #rules: 12 #arcs: 39/289 DPs: filter2{4,#}(false0(),f,x,xs) -> filter{2,#}(f,xs) filter{2,#}(f,cons2(x,xs)) -> app#(f,x) app#(map1(x15),x16) -> map{2,#}(x15,x16) map{2,#}(f,cons2(x,xs)) -> map{2,#}(f,xs) map{2,#}(f,cons2(x,xs)) -> app#(f,x) app#(filter1(x22),x23) -> filter{2,#}(x22,x23) filter{2,#}(f,cons2(x,xs)) -> filter2{4,#}(app(f,x),f,x,xs) filter2{4,#}(true0(),f,x,xs) -> filter{2,#}(f,xs) app#(filter23(x25,x26,x27),x28) -> filter2{4,#}(x25,x26,x27,x28) TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) Subterm Criterion Processor: simple projection: pi(map{2,#}) = 0 pi(app#) = 0 pi(filter{2,#}) = 0 pi(filter2{4,#}) = 1 problem: DPs: filter2{4,#}(false0(),f,x,xs) -> filter{2,#}(f,xs) filter{2,#}(f,cons2(x,xs)) -> app#(f,x) map{2,#}(f,cons2(x,xs)) -> map{2,#}(f,xs) map{2,#}(f,cons2(x,xs)) -> app#(f,x) filter{2,#}(f,cons2(x,xs)) -> filter2{4,#}(app(f,x),f,x,xs) filter2{4,#}(true0(),f,x,xs) -> filter{2,#}(f,xs) TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) SCC Processor: #sccs: 2 #rules: 4 #arcs: 20/36 DPs: map{2,#}(f,cons2(x,xs)) -> map{2,#}(f,xs) TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) Subterm Criterion Processor: simple projection: pi(map{2,#}) = 1 problem: DPs: TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) Qed DPs: filter2{4,#}(false0(),f,x,xs) -> filter{2,#}(f,xs) filter{2,#}(f,cons2(x,xs)) -> filter2{4,#}(app(f,x),f,x,xs) filter2{4,#}(true0(),f,x,xs) -> filter{2,#}(f,xs) TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) Subterm Criterion Processor: simple projection: pi(filter{2,#}) = 1 pi(filter2{4,#}) = 3 problem: DPs: filter2{4,#}(false0(),f,x,xs) -> filter{2,#}(f,xs) filter2{4,#}(true0(),f,x,xs) -> filter{2,#}(f,xs) TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) SCC Processor: #sccs: 0 #rules: 0 #arcs: 4/4 DPs: log{1,#}(s1(s1(x))) -> log{1,#}(s1(quot2(x,s1(s1(00()))))) TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) Subterm Criterion Processor: simple projection: pi(minus2) = 0 pi(s1) = [0,0,0] pi(quot2) = [0,0] pi(cons2) = [0,0,0,1,1,1] pi(filter23) = 0 pi(log{1,#}) = [0,0,0] problem: DPs: TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) Qed DPs: quot{2,#}(s1(x),s1(y)) -> quot{2,#}(minus2(x,y),s1(y)) TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) Subterm Criterion Processor: simple projection: pi(minus2) = 0 pi(quot{2,#}) = 0 problem: DPs: TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) Qed DPs: minus{2,#}(s1(x),s1(y)) -> minus{2,#}(x,y) TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) Subterm Criterion Processor: simple projection: pi(minus{2,#}) = 0 problem: DPs: TRS: minus2(x,00()) -> x minus2(s1(x),s1(y)) -> minus2(x,y) quot2(00(),s1(y)) -> 00() quot2(s1(x),s1(y)) -> s1(quot2(minus2(x,y),s1(y))) log1(s1(00())) -> 00() log1(s1(s1(x))) -> s1(log1(s1(quot2(x,s1(s1(00())))))) map2(f,nil0()) -> nil0() map2(f,cons2(x,xs)) -> cons2(app(f,x),map2(f,xs)) filter2(f,nil0()) -> nil0() filter2(f,cons2(x,xs)) -> filter24(app(f,x),f,x,xs) filter24(true0(),f,x,xs) -> cons2(x,filter2(f,xs)) filter24(false0(),f,x,xs) -> filter2(f,xs) app(minus1(x4),x5) -> minus2(x4,x5) app(minus0(),x4) -> minus1(x4) app(s0(),x8) -> s1(x8) app(quot1(x10),x11) -> quot2(x10,x11) app(quot0(),x10) -> quot1(x10) app(log0(),x13) -> log1(x13) app(map1(x15),x16) -> map2(x15,x16) app(map0(),x15) -> map1(x15) app(cons1(x19),x20) -> cons2(x19,x20) app(cons0(),x19) -> cons1(x19) app(filter1(x22),x23) -> filter2(x22,x23) app(filter0(),x22) -> filter1(x22) app(filter23(x25,x26,x27),x28) -> filter24(x25,x26,x27,x28) app(filter22(x25,x26),x27) -> filter23(x25,x26,x27) app(filter21(x25),x26) -> filter22(x25,x26) app(filter20(),x25) -> filter21(x25) Qed