- : unit = () - : unit = () h : heuristic = - : unit = () APPLY CRITERIA (Marked dependency pairs) TRS termination of: [1] active(from(X)) -> mark(cons(X,from(s(X)))) [2] active(sel(0,cons(X,XS))) -> mark(X) [3] active(sel(s(N),cons(X,XS))) -> mark(sel(N,XS)) [4] active(minus(X,0)) -> mark(0) [5] active(minus(s(X),s(Y))) -> mark(minus(X,Y)) [6] active(quot(0,s(Y))) -> mark(0) [7] active(quot(s(X),s(Y))) -> mark(s(quot(minus(X,Y),s(Y)))) [8] active(zWquot(XS,nil)) -> mark(nil) [9] active(zWquot(nil,XS)) -> mark(nil) [10] active(zWquot(cons(X,XS),cons(Y,YS))) -> mark(cons(quot(X,Y),zWquot(XS,YS))) [11] mark(from(X)) -> active(from(mark(X))) [12] mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) [13] mark(s(X)) -> active(s(mark(X))) [14] mark(sel(X1,X2)) -> active(sel(mark(X1),mark(X2))) [15] mark(0) -> active(0) [16] mark(minus(X1,X2)) -> active(minus(mark(X1),mark(X2))) [17] mark(quot(X1,X2)) -> active(quot(mark(X1),mark(X2))) [18] mark(zWquot(X1,X2)) -> active(zWquot(mark(X1),mark(X2))) [19] mark(nil) -> active(nil) [20] from(mark(X)) -> from(X) [21] from(active(X)) -> from(X) [22] cons(mark(X1),X2) -> cons(X1,X2) [23] cons(X1,mark(X2)) -> cons(X1,X2) [24] cons(active(X1),X2) -> cons(X1,X2) [25] cons(X1,active(X2)) -> cons(X1,X2) [26] s(mark(X)) -> s(X) [27] s(active(X)) -> s(X) [28] sel(mark(X1),X2) -> sel(X1,X2) [29] sel(X1,mark(X2)) -> sel(X1,X2) [30] sel(active(X1),X2) -> sel(X1,X2) [31] sel(X1,active(X2)) -> sel(X1,X2) [32] minus(mark(X1),X2) -> minus(X1,X2) [33] minus(X1,mark(X2)) -> minus(X1,X2) [34] minus(active(X1),X2) -> minus(X1,X2) [35] minus(X1,active(X2)) -> minus(X1,X2) [36] quot(mark(X1),X2) -> quot(X1,X2) [37] quot(X1,mark(X2)) -> quot(X1,X2) [38] quot(active(X1),X2) -> quot(X1,X2) [39] quot(X1,active(X2)) -> quot(X1,X2) [40] zWquot(mark(X1),X2) -> zWquot(X1,X2) [41] zWquot(X1,mark(X2)) -> zWquot(X1,X2) [42] zWquot(active(X1),X2) -> zWquot(X1,X2) [43] zWquot(X1,active(X2)) -> zWquot(X1,X2) Sub problem: guided: DP termination of: END GUIDED APPLY CRITERIA (Graph splitting) Found 8 components: { --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> } { --> --> --> --> } { --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> } { --> --> --> --> } { --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> } { --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> } { --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> } { --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> } APPLY CRITERIA (Subterm criterion) APPLY CRITERIA (Choosing graph) Trying to solve the following constraints: { mark(cons(X1,X2)) >= active(cons(mark(X1),X2)) ; mark(from(X)) >= active(from(mark(X))) ; mark(s(X)) >= active(s(mark(X))) ; mark(sel(X1,X2)) >= active(sel(mark(X1),mark(X2))) ; mark(0) >= active(0) ; mark(minus(X1,X2)) >= active(minus(mark(X1),mark(X2))) ; mark(quot(X1,X2)) >= active(quot(mark(X1),mark(X2))) ; mark(nil) >= active(nil) ; mark(zWquot(X1,X2)) >= active(zWquot(mark(X1),mark(X2))) ; cons(mark(X1),X2) >= cons(X1,X2) ; cons(active(X1),X2) >= cons(X1,X2) ; cons(X1,mark(X2)) >= cons(X1,X2) ; cons(X1,active(X2)) >= cons(X1,X2) ; from(mark(X)) >= from(X) ; from(active(X)) >= from(X) ; s(mark(X)) >= s(X) ; s(active(X)) >= s(X) ; active(from(X)) >= mark(cons(X,from(s(X)))) ; active(sel(s(N),cons(X,XS))) >= mark(sel(N,XS)) ; active(sel(0,cons(X,XS))) >= mark(X) ; active(minus(s(X),s(Y))) >= mark(minus(X,Y)) ; active(minus(X,0)) >= mark(0) ; active(quot(s(X),s(Y))) >= mark(s(quot(minus(X,Y),s(Y)))) ; active(quot(0,s(Y))) >= mark(0) ; active(zWquot(cons(X,XS),cons(Y,YS))) >= mark(cons(quot(X,Y),zWquot(XS,YS))) ; active(zWquot(nil,XS)) >= mark(nil) ; active(zWquot(XS,nil)) >= mark(nil) ; sel(mark(X1),X2) >= sel(X1,X2) ; sel(active(X1),X2) >= sel(X1,X2) ; sel(X1,mark(X2)) >= sel(X1,X2) ; sel(X1,active(X2)) >= sel(X1,X2) ; minus(mark(X1),X2) >= minus(X1,X2) ; minus(active(X1),X2) >= minus(X1,X2) ; minus(X1,mark(X2)) >= minus(X1,X2) ; minus(X1,active(X2)) >= minus(X1,X2) ; quot(mark(X1),X2) >= quot(X1,X2) ; quot(active(X1),X2) >= quot(X1,X2) ; quot(X1,mark(X2)) >= quot(X1,X2) ; quot(X1,active(X2)) >= quot(X1,X2) ; zWquot(mark(X1),X2) >= zWquot(X1,X2) ; zWquot(active(X1),X2) >= zWquot(X1,X2) ; zWquot(X1,mark(X2)) >= zWquot(X1,X2) ; zWquot(X1,active(X2)) >= zWquot(X1,X2) ; Marked_mark(cons(X1,X2)) >= Marked_mark(X1) ; Marked_mark(cons(X1,X2)) >= Marked_active(cons(mark(X1),X2)) ; Marked_mark(from(X)) >= Marked_mark(X) ; Marked_mark(from(X)) >= Marked_active(from(mark(X))) ; Marked_mark(s(X)) >= Marked_mark(X) ; Marked_mark(s(X)) >= Marked_active(s(mark(X))) ; Marked_mark(sel(X1,X2)) >= Marked_mark(X1) ; Marked_mark(sel(X1,X2)) >= Marked_mark(X2) ; Marked_mark(sel(X1,X2)) >= Marked_active(sel(mark(X1),mark(X2))) ; Marked_mark(minus(X1,X2)) >= Marked_mark(X1) ; Marked_mark(minus(X1,X2)) >= Marked_mark(X2) ; Marked_mark(minus(X1,X2)) >= Marked_active(minus(mark(X1),mark(X2))) ; Marked_mark(quot(X1,X2)) >= Marked_mark(X1) ; Marked_mark(quot(X1,X2)) >= Marked_mark(X2) ; Marked_mark(quot(X1,X2)) >= Marked_active(quot(mark(X1),mark(X2))) ; Marked_mark(zWquot(X1,X2)) >= Marked_mark(X1) ; Marked_mark(zWquot(X1,X2)) >= Marked_mark(X2) ; Marked_mark(zWquot(X1,X2)) >= Marked_active(zWquot(mark(X1),mark(X2))) ; Marked_active(from(X)) >= Marked_mark(cons(X,from(s(X)))) ; Marked_active(sel(s(N),cons(X,XS))) >= Marked_mark(sel(N,XS)) ; Marked_active(sel(0,cons(X,XS))) >= Marked_mark(X) ; Marked_active(minus(s(X),s(Y))) >= Marked_mark(minus(X,Y)) ; Marked_active(quot(s(X),s(Y))) >= Marked_mark(s(quot(minus(X,Y),s(Y)))) ; Marked_active(zWquot(cons(X,XS),cons(Y,YS))) >= Marked_mark(cons(quot(X,Y), zWquot(XS,YS))) ; } + Disjunctions:{ { Marked_mark(cons(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(cons(X1,X2)) > Marked_active(cons(mark(X1),X2)) ; } { Marked_mark(from(X)) > Marked_mark(X) ; } { Marked_mark(from(X)) > Marked_active(from(mark(X))) ; } { Marked_mark(s(X)) > Marked_mark(X) ; } { Marked_mark(s(X)) > Marked_active(s(mark(X))) ; } { Marked_mark(sel(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(sel(X1,X2)) > Marked_mark(X2) ; } { Marked_mark(sel(X1,X2)) > Marked_active(sel(mark(X1),mark(X2))) ; } { Marked_mark(minus(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(minus(X1,X2)) > Marked_mark(X2) ; } { Marked_mark(minus(X1,X2)) > Marked_active(minus(mark(X1),mark(X2))) ; } { Marked_mark(quot(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(quot(X1,X2)) > Marked_mark(X2) ; } { Marked_mark(quot(X1,X2)) > Marked_active(quot(mark(X1),mark(X2))) ; } { Marked_mark(zWquot(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(zWquot(X1,X2)) > Marked_mark(X2) ; } { Marked_mark(zWquot(X1,X2)) > Marked_active(zWquot(mark(X1),mark(X2))) ; } { Marked_active(from(X)) > Marked_mark(cons(X,from(s(X)))) ; } { Marked_active(sel(s(N),cons(X,XS))) > Marked_mark(sel(N,XS)) ; } { Marked_active(sel(0,cons(X,XS))) > Marked_mark(X) ; } { Marked_active(minus(s(X),s(Y))) > Marked_mark(minus(X,Y)) ; } { Marked_active(quot(s(X),s(Y))) > Marked_mark(s(quot(minus(X,Y),s(Y)))) ; } { Marked_active(zWquot(cons(X,XS),cons(Y,YS))) > Marked_mark(cons(quot(X,Y), zWquot(XS,YS))) ; } } === TIMER virtual : 10.000000 === Entering poly_solver Starting Sat solver initialization Calling Sat solver... === STOPING TIMER virtual === === TIMER real : 10.000000 === === STOPING TIMER real === Sat solver returned Sat solver result read === STOPING TIMER real === === STOPING TIMER virtual === constraint: mark(cons(X1,X2)) >= active(cons(mark(X1),X2)) constraint: mark(from(X)) >= active(from(mark(X))) constraint: mark(s(X)) >= active(s(mark(X))) constraint: mark(sel(X1,X2)) >= active(sel(mark(X1),mark(X2))) constraint: mark(0) >= active(0) constraint: mark(minus(X1,X2)) >= active(minus(mark(X1),mark(X2))) constraint: mark(quot(X1,X2)) >= active(quot(mark(X1),mark(X2))) constraint: mark(nil) >= active(nil) constraint: mark(zWquot(X1,X2)) >= active(zWquot(mark(X1),mark(X2))) constraint: cons(mark(X1),X2) >= cons(X1,X2) constraint: cons(active(X1),X2) >= cons(X1,X2) constraint: cons(X1,mark(X2)) >= cons(X1,X2) constraint: cons(X1,active(X2)) >= cons(X1,X2) constraint: from(mark(X)) >= from(X) constraint: from(active(X)) >= from(X) constraint: s(mark(X)) >= s(X) constraint: s(active(X)) >= s(X) constraint: active(from(X)) >= mark(cons(X,from(s(X)))) constraint: active(sel(s(N),cons(X,XS))) >= mark(sel(N,XS)) constraint: active(sel(0,cons(X,XS))) >= mark(X) constraint: active(minus(s(X),s(Y))) >= mark(minus(X,Y)) constraint: active(minus(X,0)) >= mark(0) constraint: active(quot(s(X),s(Y))) >= mark(s(quot(minus(X,Y),s(Y)))) constraint: active(quot(0,s(Y))) >= mark(0) constraint: active(zWquot(cons(X,XS),cons(Y,YS))) >= mark(cons(quot(X,Y), zWquot(XS,YS))) constraint: active(zWquot(nil,XS)) >= mark(nil) constraint: active(zWquot(XS,nil)) >= mark(nil) constraint: sel(mark(X1),X2) >= sel(X1,X2) constraint: sel(active(X1),X2) >= sel(X1,X2) constraint: sel(X1,mark(X2)) >= sel(X1,X2) constraint: sel(X1,active(X2)) >= sel(X1,X2) constraint: minus(mark(X1),X2) >= minus(X1,X2) constraint: minus(active(X1),X2) >= minus(X1,X2) constraint: minus(X1,mark(X2)) >= minus(X1,X2) constraint: minus(X1,active(X2)) >= minus(X1,X2) constraint: quot(mark(X1),X2) >= quot(X1,X2) constraint: quot(active(X1),X2) >= quot(X1,X2) constraint: quot(X1,mark(X2)) >= quot(X1,X2) constraint: quot(X1,active(X2)) >= quot(X1,X2) constraint: zWquot(mark(X1),X2) >= zWquot(X1,X2) constraint: zWquot(active(X1),X2) >= zWquot(X1,X2) constraint: zWquot(X1,mark(X2)) >= zWquot(X1,X2) constraint: zWquot(X1,active(X2)) >= zWquot(X1,X2) constraint: Marked_mark(cons(X1,X2)) >= Marked_mark(X1) constraint: Marked_mark(cons(X1,X2)) >= Marked_active(cons(mark(X1),X2)) constraint: Marked_mark(from(X)) >= Marked_mark(X) constraint: Marked_mark(from(X)) >= Marked_active(from(mark(X))) constraint: Marked_mark(s(X)) >= Marked_mark(X) constraint: Marked_mark(s(X)) >= Marked_active(s(mark(X))) constraint: Marked_mark(sel(X1,X2)) >= Marked_mark(X1) constraint: Marked_mark(sel(X1,X2)) >= Marked_mark(X2) constraint: Marked_mark(sel(X1,X2)) >= Marked_active(sel(mark(X1),mark(X2))) constraint: Marked_mark(minus(X1,X2)) >= Marked_mark(X1) constraint: Marked_mark(minus(X1,X2)) >= Marked_mark(X2) constraint: Marked_mark(minus(X1,X2)) >= Marked_active(minus(mark(X1),mark(X2))) constraint: Marked_mark(quot(X1,X2)) >= Marked_mark(X1) constraint: Marked_mark(quot(X1,X2)) >= Marked_mark(X2) constraint: Marked_mark(quot(X1,X2)) >= Marked_active(quot(mark(X1),mark(X2))) constraint: Marked_mark(zWquot(X1,X2)) >= Marked_mark(X1) constraint: Marked_mark(zWquot(X1,X2)) >= Marked_mark(X2) constraint: Marked_mark(zWquot(X1,X2)) >= Marked_active(zWquot(mark(X1), mark(X2))) constraint: Marked_active(from(X)) >= Marked_mark(cons(X,from(s(X)))) constraint: Marked_active(sel(s(N),cons(X,XS))) >= Marked_mark(sel(N,XS)) constraint: Marked_active(sel(0,cons(X,XS))) >= Marked_mark(X) constraint: Marked_active(minus(s(X),s(Y))) >= Marked_mark(minus(X,Y)) constraint: Marked_active(quot(s(X),s(Y))) >= Marked_mark(s(quot(minus(X,Y), s(Y)))) constraint: Marked_active(zWquot(cons(X,XS),cons(Y,YS))) >= Marked_mark( cons(quot(X,Y), zWquot(XS,YS))) APPLY CRITERIA (Subterm criterion) ST: Marked_from -> 1 APPLY CRITERIA (Subterm criterion) ST: Marked_cons -> 2 APPLY CRITERIA (Subterm criterion) ST: Marked_s -> 1 APPLY CRITERIA (Subterm criterion) ST: Marked_sel -> 2 APPLY CRITERIA (Subterm criterion) ST: Marked_minus -> 2 APPLY CRITERIA (Subterm criterion) ST: Marked_quot -> 2 APPLY CRITERIA (Subterm criterion) ST: Marked_zWquot -> 2 APPLY CRITERIA (Graph splitting) Found 1 components: { --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> } APPLY CRITERIA (Subterm criterion) APPLY CRITERIA (Choosing graph) Trying to solve the following constraints: { mark(cons(X1,X2)) >= active(cons(mark(X1),X2)) ; mark(from(X)) >= active(from(mark(X))) ; mark(s(X)) >= active(s(mark(X))) ; mark(sel(X1,X2)) >= active(sel(mark(X1),mark(X2))) ; mark(0) >= active(0) ; mark(minus(X1,X2)) >= active(minus(mark(X1),mark(X2))) ; mark(quot(X1,X2)) >= active(quot(mark(X1),mark(X2))) ; mark(nil) >= active(nil) ; mark(zWquot(X1,X2)) >= active(zWquot(mark(X1),mark(X2))) ; cons(mark(X1),X2) >= cons(X1,X2) ; cons(active(X1),X2) >= cons(X1,X2) ; cons(X1,mark(X2)) >= cons(X1,X2) ; cons(X1,active(X2)) >= cons(X1,X2) ; from(mark(X)) >= from(X) ; from(active(X)) >= from(X) ; s(mark(X)) >= s(X) ; s(active(X)) >= s(X) ; active(from(X)) >= mark(cons(X,from(s(X)))) ; active(sel(s(N),cons(X,XS))) >= mark(sel(N,XS)) ; active(sel(0,cons(X,XS))) >= mark(X) ; active(minus(s(X),s(Y))) >= mark(minus(X,Y)) ; active(minus(X,0)) >= mark(0) ; active(quot(s(X),s(Y))) >= mark(s(quot(minus(X,Y),s(Y)))) ; active(quot(0,s(Y))) >= mark(0) ; active(zWquot(cons(X,XS),cons(Y,YS))) >= mark(cons(quot(X,Y),zWquot(XS,YS))) ; active(zWquot(nil,XS)) >= mark(nil) ; active(zWquot(XS,nil)) >= mark(nil) ; sel(mark(X1),X2) >= sel(X1,X2) ; sel(active(X1),X2) >= sel(X1,X2) ; sel(X1,mark(X2)) >= sel(X1,X2) ; sel(X1,active(X2)) >= sel(X1,X2) ; minus(mark(X1),X2) >= minus(X1,X2) ; minus(active(X1),X2) >= minus(X1,X2) ; minus(X1,mark(X2)) >= minus(X1,X2) ; minus(X1,active(X2)) >= minus(X1,X2) ; quot(mark(X1),X2) >= quot(X1,X2) ; quot(active(X1),X2) >= quot(X1,X2) ; quot(X1,mark(X2)) >= quot(X1,X2) ; quot(X1,active(X2)) >= quot(X1,X2) ; zWquot(mark(X1),X2) >= zWquot(X1,X2) ; zWquot(active(X1),X2) >= zWquot(X1,X2) ; zWquot(X1,mark(X2)) >= zWquot(X1,X2) ; zWquot(X1,active(X2)) >= zWquot(X1,X2) ; Marked_mark(cons(X1,X2)) >= Marked_mark(X1) ; Marked_mark(from(X)) >= Marked_mark(X) ; Marked_mark(from(X)) >= Marked_active(from(mark(X))) ; Marked_mark(s(X)) >= Marked_mark(X) ; Marked_mark(s(X)) >= Marked_active(s(mark(X))) ; Marked_mark(sel(X1,X2)) >= Marked_mark(X1) ; Marked_mark(sel(X1,X2)) >= Marked_mark(X2) ; Marked_mark(sel(X1,X2)) >= Marked_active(sel(mark(X1),mark(X2))) ; Marked_mark(minus(X1,X2)) >= Marked_mark(X1) ; Marked_mark(minus(X1,X2)) >= Marked_mark(X2) ; Marked_mark(minus(X1,X2)) >= Marked_active(minus(mark(X1),mark(X2))) ; Marked_mark(quot(X1,X2)) >= Marked_mark(X1) ; Marked_mark(quot(X1,X2)) >= Marked_mark(X2) ; Marked_mark(quot(X1,X2)) >= Marked_active(quot(mark(X1),mark(X2))) ; Marked_mark(zWquot(X1,X2)) >= Marked_mark(X1) ; Marked_mark(zWquot(X1,X2)) >= Marked_mark(X2) ; Marked_mark(zWquot(X1,X2)) >= Marked_active(zWquot(mark(X1),mark(X2))) ; Marked_active(from(X)) >= Marked_mark(cons(X,from(s(X)))) ; Marked_active(sel(s(N),cons(X,XS))) >= Marked_mark(sel(N,XS)) ; Marked_active(sel(0,cons(X,XS))) >= Marked_mark(X) ; Marked_active(minus(s(X),s(Y))) >= Marked_mark(minus(X,Y)) ; Marked_active(quot(s(X),s(Y))) >= Marked_mark(s(quot(minus(X,Y),s(Y)))) ; Marked_active(zWquot(cons(X,XS),cons(Y,YS))) >= Marked_mark(cons(quot(X,Y), zWquot(XS,YS))) ; } + Disjunctions:{ { Marked_mark(cons(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(from(X)) > Marked_mark(X) ; } { Marked_mark(from(X)) > Marked_active(from(mark(X))) ; } { Marked_mark(s(X)) > Marked_mark(X) ; } { Marked_mark(s(X)) > Marked_active(s(mark(X))) ; } { Marked_mark(sel(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(sel(X1,X2)) > Marked_mark(X2) ; } { Marked_mark(sel(X1,X2)) > Marked_active(sel(mark(X1),mark(X2))) ; } { Marked_mark(minus(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(minus(X1,X2)) > Marked_mark(X2) ; } { Marked_mark(minus(X1,X2)) > Marked_active(minus(mark(X1),mark(X2))) ; } { Marked_mark(quot(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(quot(X1,X2)) > Marked_mark(X2) ; } { Marked_mark(quot(X1,X2)) > Marked_active(quot(mark(X1),mark(X2))) ; } { Marked_mark(zWquot(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(zWquot(X1,X2)) > Marked_mark(X2) ; } { Marked_mark(zWquot(X1,X2)) > Marked_active(zWquot(mark(X1),mark(X2))) ; } { Marked_active(from(X)) > Marked_mark(cons(X,from(s(X)))) ; } { Marked_active(sel(s(N),cons(X,XS))) > Marked_mark(sel(N,XS)) ; } { Marked_active(sel(0,cons(X,XS))) > Marked_mark(X) ; } { Marked_active(minus(s(X),s(Y))) > Marked_mark(minus(X,Y)) ; } { Marked_active(quot(s(X),s(Y))) > Marked_mark(s(quot(minus(X,Y),s(Y)))) ; } { Marked_active(zWquot(cons(X,XS),cons(Y,YS))) > Marked_mark(cons(quot(X,Y), zWquot(XS,YS))) ; } } === TIMER virtual : 10.000000 === Entering poly_solver Starting Sat solver initialization Calling Sat solver... === STOPING TIMER virtual === === TIMER real : 10.000000 === === STOPING TIMER real === Sat solver returned Sat solver result read === STOPING TIMER real === === STOPING TIMER virtual === constraint: mark(cons(X1,X2)) >= active(cons(mark(X1),X2)) constraint: mark(from(X)) >= active(from(mark(X))) constraint: mark(s(X)) >= active(s(mark(X))) constraint: mark(sel(X1,X2)) >= active(sel(mark(X1),mark(X2))) constraint: mark(0) >= active(0) constraint: mark(minus(X1,X2)) >= active(minus(mark(X1),mark(X2))) constraint: mark(quot(X1,X2)) >= active(quot(mark(X1),mark(X2))) constraint: mark(nil) >= active(nil) constraint: mark(zWquot(X1,X2)) >= active(zWquot(mark(X1),mark(X2))) constraint: cons(mark(X1),X2) >= cons(X1,X2) constraint: cons(active(X1),X2) >= cons(X1,X2) constraint: cons(X1,mark(X2)) >= cons(X1,X2) constraint: cons(X1,active(X2)) >= cons(X1,X2) constraint: from(mark(X)) >= from(X) constraint: from(active(X)) >= from(X) constraint: s(mark(X)) >= s(X) constraint: s(active(X)) >= s(X) constraint: active(from(X)) >= mark(cons(X,from(s(X)))) constraint: active(sel(s(N),cons(X,XS))) >= mark(sel(N,XS)) constraint: active(sel(0,cons(X,XS))) >= mark(X) constraint: active(minus(s(X),s(Y))) >= mark(minus(X,Y)) constraint: active(minus(X,0)) >= mark(0) constraint: active(quot(s(X),s(Y))) >= mark(s(quot(minus(X,Y),s(Y)))) constraint: active(quot(0,s(Y))) >= mark(0) constraint: active(zWquot(cons(X,XS),cons(Y,YS))) >= mark(cons(quot(X,Y), zWquot(XS,YS))) constraint: active(zWquot(nil,XS)) >= mark(nil) constraint: active(zWquot(XS,nil)) >= mark(nil) constraint: sel(mark(X1),X2) >= sel(X1,X2) constraint: sel(active(X1),X2) >= sel(X1,X2) constraint: sel(X1,mark(X2)) >= sel(X1,X2) constraint: sel(X1,active(X2)) >= sel(X1,X2) constraint: minus(mark(X1),X2) >= minus(X1,X2) constraint: minus(active(X1),X2) >= minus(X1,X2) constraint: minus(X1,mark(X2)) >= minus(X1,X2) constraint: minus(X1,active(X2)) >= minus(X1,X2) constraint: quot(mark(X1),X2) >= quot(X1,X2) constraint: quot(active(X1),X2) >= quot(X1,X2) constraint: quot(X1,mark(X2)) >= quot(X1,X2) constraint: quot(X1,active(X2)) >= quot(X1,X2) constraint: zWquot(mark(X1),X2) >= zWquot(X1,X2) constraint: zWquot(active(X1),X2) >= zWquot(X1,X2) constraint: zWquot(X1,mark(X2)) >= zWquot(X1,X2) constraint: zWquot(X1,active(X2)) >= zWquot(X1,X2) constraint: Marked_mark(cons(X1,X2)) >= Marked_mark(X1) constraint: Marked_mark(from(X)) >= Marked_mark(X) constraint: Marked_mark(from(X)) >= Marked_active(from(mark(X))) constraint: Marked_mark(s(X)) >= Marked_mark(X) constraint: Marked_mark(s(X)) >= Marked_active(s(mark(X))) constraint: Marked_mark(sel(X1,X2)) >= Marked_mark(X1) constraint: Marked_mark(sel(X1,X2)) >= Marked_mark(X2) constraint: Marked_mark(sel(X1,X2)) >= Marked_active(sel(mark(X1),mark(X2))) constraint: Marked_mark(minus(X1,X2)) >= Marked_mark(X1) constraint: Marked_mark(minus(X1,X2)) >= Marked_mark(X2) constraint: Marked_mark(minus(X1,X2)) >= Marked_active(minus(mark(X1),mark(X2))) constraint: Marked_mark(quot(X1,X2)) >= Marked_mark(X1) constraint: Marked_mark(quot(X1,X2)) >= Marked_mark(X2) constraint: Marked_mark(quot(X1,X2)) >= Marked_active(quot(mark(X1),mark(X2))) constraint: Marked_mark(zWquot(X1,X2)) >= Marked_mark(X1) constraint: Marked_mark(zWquot(X1,X2)) >= Marked_mark(X2) constraint: Marked_mark(zWquot(X1,X2)) >= Marked_active(zWquot(mark(X1), mark(X2))) constraint: Marked_active(from(X)) >= Marked_mark(cons(X,from(s(X)))) constraint: Marked_active(sel(s(N),cons(X,XS))) >= Marked_mark(sel(N,XS)) constraint: Marked_active(sel(0,cons(X,XS))) >= Marked_mark(X) constraint: Marked_active(minus(s(X),s(Y))) >= Marked_mark(minus(X,Y)) constraint: Marked_active(quot(s(X),s(Y))) >= Marked_mark(s(quot(minus(X,Y), s(Y)))) constraint: Marked_active(zWquot(cons(X,XS),cons(Y,YS))) >= Marked_mark( cons(quot(X,Y), zWquot(XS,YS))) APPLY CRITERIA (Graph splitting) Found 1 components: { --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> } APPLY CRITERIA (Subterm criterion) APPLY CRITERIA (Choosing graph) Trying to solve the following constraints: { mark(cons(X1,X2)) >= active(cons(mark(X1),X2)) ; mark(from(X)) >= active(from(mark(X))) ; mark(s(X)) >= active(s(mark(X))) ; mark(sel(X1,X2)) >= active(sel(mark(X1),mark(X2))) ; mark(0) >= active(0) ; mark(minus(X1,X2)) >= active(minus(mark(X1),mark(X2))) ; mark(quot(X1,X2)) >= active(quot(mark(X1),mark(X2))) ; mark(nil) >= active(nil) ; mark(zWquot(X1,X2)) >= active(zWquot(mark(X1),mark(X2))) ; cons(mark(X1),X2) >= cons(X1,X2) ; cons(active(X1),X2) >= cons(X1,X2) ; cons(X1,mark(X2)) >= cons(X1,X2) ; cons(X1,active(X2)) >= cons(X1,X2) ; from(mark(X)) >= from(X) ; from(active(X)) >= from(X) ; s(mark(X)) >= s(X) ; s(active(X)) >= s(X) ; active(from(X)) >= mark(cons(X,from(s(X)))) ; active(sel(s(N),cons(X,XS))) >= mark(sel(N,XS)) ; active(sel(0,cons(X,XS))) >= mark(X) ; active(minus(s(X),s(Y))) >= mark(minus(X,Y)) ; active(minus(X,0)) >= mark(0) ; active(quot(s(X),s(Y))) >= mark(s(quot(minus(X,Y),s(Y)))) ; active(quot(0,s(Y))) >= mark(0) ; active(zWquot(cons(X,XS),cons(Y,YS))) >= mark(cons(quot(X,Y),zWquot(XS,YS))) ; active(zWquot(nil,XS)) >= mark(nil) ; active(zWquot(XS,nil)) >= mark(nil) ; sel(mark(X1),X2) >= sel(X1,X2) ; sel(active(X1),X2) >= sel(X1,X2) ; sel(X1,mark(X2)) >= sel(X1,X2) ; sel(X1,active(X2)) >= sel(X1,X2) ; minus(mark(X1),X2) >= minus(X1,X2) ; minus(active(X1),X2) >= minus(X1,X2) ; minus(X1,mark(X2)) >= minus(X1,X2) ; minus(X1,active(X2)) >= minus(X1,X2) ; quot(mark(X1),X2) >= quot(X1,X2) ; quot(active(X1),X2) >= quot(X1,X2) ; quot(X1,mark(X2)) >= quot(X1,X2) ; quot(X1,active(X2)) >= quot(X1,X2) ; zWquot(mark(X1),X2) >= zWquot(X1,X2) ; zWquot(active(X1),X2) >= zWquot(X1,X2) ; zWquot(X1,mark(X2)) >= zWquot(X1,X2) ; zWquot(X1,active(X2)) >= zWquot(X1,X2) ; Marked_mark(cons(X1,X2)) >= Marked_mark(X1) ; Marked_mark(from(X)) >= Marked_mark(X) ; Marked_mark(from(X)) >= Marked_active(from(mark(X))) ; Marked_mark(s(X)) >= Marked_mark(X) ; Marked_mark(sel(X1,X2)) >= Marked_mark(X1) ; Marked_mark(sel(X1,X2)) >= Marked_mark(X2) ; Marked_mark(sel(X1,X2)) >= Marked_active(sel(mark(X1),mark(X2))) ; Marked_mark(minus(X1,X2)) >= Marked_mark(X1) ; Marked_mark(minus(X1,X2)) >= Marked_mark(X2) ; Marked_mark(minus(X1,X2)) >= Marked_active(minus(mark(X1),mark(X2))) ; Marked_mark(quot(X1,X2)) >= Marked_mark(X1) ; Marked_mark(quot(X1,X2)) >= Marked_mark(X2) ; Marked_mark(quot(X1,X2)) >= Marked_active(quot(mark(X1),mark(X2))) ; Marked_mark(zWquot(X1,X2)) >= Marked_mark(X1) ; Marked_mark(zWquot(X1,X2)) >= Marked_mark(X2) ; Marked_mark(zWquot(X1,X2)) >= Marked_active(zWquot(mark(X1),mark(X2))) ; Marked_active(from(X)) >= Marked_mark(cons(X,from(s(X)))) ; Marked_active(sel(s(N),cons(X,XS))) >= Marked_mark(sel(N,XS)) ; Marked_active(sel(0,cons(X,XS))) >= Marked_mark(X) ; Marked_active(minus(s(X),s(Y))) >= Marked_mark(minus(X,Y)) ; Marked_active(quot(s(X),s(Y))) >= Marked_mark(s(quot(minus(X,Y),s(Y)))) ; Marked_active(zWquot(cons(X,XS),cons(Y,YS))) >= Marked_mark(cons(quot(X,Y), zWquot(XS,YS))) ; } + Disjunctions:{ { Marked_mark(cons(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(from(X)) > Marked_mark(X) ; } { Marked_mark(from(X)) > Marked_active(from(mark(X))) ; } { Marked_mark(s(X)) > Marked_mark(X) ; } { Marked_mark(sel(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(sel(X1,X2)) > Marked_mark(X2) ; } { Marked_mark(sel(X1,X2)) > Marked_active(sel(mark(X1),mark(X2))) ; } { Marked_mark(minus(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(minus(X1,X2)) > Marked_mark(X2) ; } { Marked_mark(minus(X1,X2)) > Marked_active(minus(mark(X1),mark(X2))) ; } { Marked_mark(quot(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(quot(X1,X2)) > Marked_mark(X2) ; } { Marked_mark(quot(X1,X2)) > Marked_active(quot(mark(X1),mark(X2))) ; } { Marked_mark(zWquot(X1,X2)) > Marked_mark(X1) ; } { Marked_mark(zWquot(X1,X2)) > Marked_mark(X2) ; } { Marked_mark(zWquot(X1,X2)) > Marked_active(zWquot(mark(X1),mark(X2))) ; } { Marked_active(from(X)) > Marked_mark(cons(X,from(s(X)))) ; } { Marked_active(sel(s(N),cons(X,XS))) > Marked_mark(sel(N,XS)) ; } { Marked_active(sel(0,cons(X,XS))) > Marked_mark(X) ; } { Marked_active(minus(s(X),s(Y))) > Marked_mark(minus(X,Y)) ; } { Marked_active(quot(s(X),s(Y))) > Marked_mark(s(quot(minus(X,Y),s(Y)))) ; } { Marked_active(zWquot(cons(X,XS),cons(Y,YS))) > Marked_mark(cons(quot(X,Y), zWquot(XS,YS))) ; } } === TIMER virtual : 10.000000 === Entering poly_solver Starting Sat solver initialization Calling Sat solver... === STOPING TIMER virtual === === TIMER real : 10.000000 === === STOPING TIMER real === Sat solver returned === STOPING TIMER real === === STOPING TIMER virtual === No solution found for these parameters. Entering rpo_solver === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === === TIMER virtual : 15.000000 === Entering poly_solver Starting Sat solver initialization Calling Sat solver... === STOPING TIMER virtual === === TIMER real : 15.000000 === === STOPING TIMER real === Sat solver returned === STOPING TIMER real === === STOPING TIMER virtual === No solution found for these parameters. === TIMER virtual : 50.000000 === trying sub matrices of size: 1 Matrix interpretation constraints generated. Search parameters: LINEAR MATRIX 3x3 (strict=1x1) ; time limit: 50.. Termination constraints generated. Starting Sat solver initialization Calling Sat solver... === STOPING TIMER virtual === === TIMER real : 50.000000 === === STOPING TIMER real === Sat timeout reached === STOPING TIMER virtual === No solution found for these parameters. No solution found for these constraints. APPLY CRITERIA (Simple graph) Found the following constraints: { mark(cons(X1,X2)) >= active(cons(mark(X1),X2)) ; mark(from(X)) >= active(from(mark(X))) ; mark(s(X)) >= active(s(mark(X))) ; mark(sel(X1,X2)) >= active(sel(mark(X1),mark(X2))) ; mark(0) >= active(0) ; mark(minus(X1,X2)) >= active(minus(mark(X1),mark(X2))) ; mark(quot(X1,X2)) >= active(quot(mark(X1),mark(X2))) ; mark(nil) >= active(nil) ; mark(zWquot(X1,X2)) >= active(zWquot(mark(X1),mark(X2))) ; cons(mark(X1),X2) >= cons(X1,X2) ; cons(active(X1),X2) >= cons(X1,X2) ; cons(X1,mark(X2)) >= cons(X1,X2) ; cons(X1,active(X2)) >= cons(X1,X2) ; from(mark(X)) >= from(X) ; from(active(X)) >= from(X) ; s(mark(X)) >= s(X) ; s(active(X)) >= s(X) ; active(from(X)) >= mark(cons(X,from(s(X)))) ; active(sel(s(N),cons(X,XS))) >= mark(sel(N,XS)) ; active(sel(0,cons(X,XS))) >= mark(X) ; active(minus(s(X),s(Y))) >= mark(minus(X,Y)) ; active(minus(X,0)) >= mark(0) ; active(quot(s(X),s(Y))) >= mark(s(quot(minus(X,Y),s(Y)))) ; active(quot(0,s(Y))) >= mark(0) ; active(zWquot(cons(X,XS),cons(Y,YS))) >= mark(cons(quot(X,Y),zWquot(XS,YS))) ; active(zWquot(nil,XS)) >= mark(nil) ; active(zWquot(XS,nil)) >= mark(nil) ; sel(mark(X1),X2) >= sel(X1,X2) ; sel(active(X1),X2) >= sel(X1,X2) ; sel(X1,mark(X2)) >= sel(X1,X2) ; sel(X1,active(X2)) >= sel(X1,X2) ; minus(mark(X1),X2) >= minus(X1,X2) ; minus(active(X1),X2) >= minus(X1,X2) ; minus(X1,mark(X2)) >= minus(X1,X2) ; minus(X1,active(X2)) >= minus(X1,X2) ; quot(mark(X1),X2) >= quot(X1,X2) ; quot(active(X1),X2) >= quot(X1,X2) ; quot(X1,mark(X2)) >= quot(X1,X2) ; quot(X1,active(X2)) >= quot(X1,X2) ; zWquot(mark(X1),X2) >= zWquot(X1,X2) ; zWquot(active(X1),X2) >= zWquot(X1,X2) ; zWquot(X1,mark(X2)) >= zWquot(X1,X2) ; zWquot(X1,active(X2)) >= zWquot(X1,X2) ; Marked_mark(cons(X1,X2)) > Marked_mark(X1) ; Marked_mark(from(X)) > Marked_mark(X) ; Marked_mark(from(X)) > Marked_active(from(mark(X))) ; Marked_mark(s(X)) > Marked_mark(X) ; Marked_mark(sel(X1,X2)) > Marked_mark(X1) ; Marked_mark(sel(X1,X2)) > Marked_mark(X2) ; Marked_mark(sel(X1,X2)) > Marked_active(sel(mark(X1),mark(X2))) ; Marked_mark(minus(X1,X2)) > Marked_mark(X1) ; Marked_mark(minus(X1,X2)) > Marked_mark(X2) ; Marked_mark(minus(X1,X2)) > Marked_active(minus(mark(X1),mark(X2))) ; Marked_mark(quot(X1,X2)) > Marked_mark(X1) ; Marked_mark(quot(X1,X2)) > Marked_mark(X2) ; Marked_mark(quot(X1,X2)) > Marked_active(quot(mark(X1),mark(X2))) ; Marked_mark(zWquot(X1,X2)) > Marked_mark(X1) ; Marked_mark(zWquot(X1,X2)) > Marked_mark(X2) ; Marked_mark(zWquot(X1,X2)) >= Marked_active(zWquot(mark(X1),mark(X2))) ; Marked_active(from(X)) > Marked_mark(cons(X,from(s(X)))) ; Marked_active(sel(s(N),cons(X,XS))) > Marked_mark(sel(N,XS)) ; Marked_active(sel(0,cons(X,XS))) > Marked_mark(X) ; Marked_active(minus(s(X),s(Y))) > Marked_mark(minus(X,Y)) ; Marked_active(quot(s(X),s(Y))) > Marked_mark(s(quot(minus(X,Y),s(Y)))) ; Marked_active(zWquot(cons(X,XS),cons(Y,YS))) > Marked_mark(cons(quot(X,Y), zWquot(XS,YS))) ; } APPLY CRITERIA (SOLVE_ORD) Trying to solve the following constraints: { mark(cons(X1,X2)) >= active(cons(mark(X1),X2)) ; mark(from(X)) >= active(from(mark(X))) ; mark(s(X)) >= active(s(mark(X))) ; mark(sel(X1,X2)) >= active(sel(mark(X1),mark(X2))) ; mark(0) >= active(0) ; mark(minus(X1,X2)) >= active(minus(mark(X1),mark(X2))) ; mark(quot(X1,X2)) >= active(quot(mark(X1),mark(X2))) ; mark(nil) >= active(nil) ; mark(zWquot(X1,X2)) >= active(zWquot(mark(X1),mark(X2))) ; cons(mark(X1),X2) >= cons(X1,X2) ; cons(active(X1),X2) >= cons(X1,X2) ; cons(X1,mark(X2)) >= cons(X1,X2) ; cons(X1,active(X2)) >= cons(X1,X2) ; from(mark(X)) >= from(X) ; from(active(X)) >= from(X) ; s(mark(X)) >= s(X) ; s(active(X)) >= s(X) ; active(from(X)) >= mark(cons(X,from(s(X)))) ; active(sel(s(N),cons(X,XS))) >= mark(sel(N,XS)) ; active(sel(0,cons(X,XS))) >= mark(X) ; active(minus(s(X),s(Y))) >= mark(minus(X,Y)) ; active(minus(X,0)) >= mark(0) ; active(quot(s(X),s(Y))) >= mark(s(quot(minus(X,Y),s(Y)))) ; active(quot(0,s(Y))) >= mark(0) ; active(zWquot(cons(X,XS),cons(Y,YS))) >= mark(cons(quot(X,Y),zWquot(XS,YS))) ; active(zWquot(nil,XS)) >= mark(nil) ; active(zWquot(XS,nil)) >= mark(nil) ; sel(mark(X1),X2) >= sel(X1,X2) ; sel(active(X1),X2) >= sel(X1,X2) ; sel(X1,mark(X2)) >= sel(X1,X2) ; sel(X1,active(X2)) >= sel(X1,X2) ; minus(mark(X1),X2) >= minus(X1,X2) ; minus(active(X1),X2) >= minus(X1,X2) ; minus(X1,mark(X2)) >= minus(X1,X2) ; minus(X1,active(X2)) >= minus(X1,X2) ; quot(mark(X1),X2) >= quot(X1,X2) ; quot(active(X1),X2) >= quot(X1,X2) ; quot(X1,mark(X2)) >= quot(X1,X2) ; quot(X1,active(X2)) >= quot(X1,X2) ; zWquot(mark(X1),X2) >= zWquot(X1,X2) ; zWquot(active(X1),X2) >= zWquot(X1,X2) ; zWquot(X1,mark(X2)) >= zWquot(X1,X2) ; zWquot(X1,active(X2)) >= zWquot(X1,X2) ; Marked_mark(cons(X1,X2)) > Marked_mark(X1) ; Marked_mark(from(X)) > Marked_mark(X) ; Marked_mark(from(X)) > Marked_active(from(mark(X))) ; Marked_mark(s(X)) > Marked_mark(X) ; Marked_mark(sel(X1,X2)) > Marked_mark(X1) ; Marked_mark(sel(X1,X2)) > Marked_mark(X2) ; Marked_mark(sel(X1,X2)) > Marked_active(sel(mark(X1),mark(X2))) ; Marked_mark(minus(X1,X2)) > Marked_mark(X1) ; Marked_mark(minus(X1,X2)) > Marked_mark(X2) ; Marked_mark(minus(X1,X2)) > Marked_active(minus(mark(X1),mark(X2))) ; Marked_mark(quot(X1,X2)) > Marked_mark(X1) ; Marked_mark(quot(X1,X2)) > Marked_mark(X2) ; Marked_mark(quot(X1,X2)) > Marked_active(quot(mark(X1),mark(X2))) ; Marked_mark(zWquot(X1,X2)) > Marked_mark(X1) ; Marked_mark(zWquot(X1,X2)) > Marked_mark(X2) ; Marked_mark(zWquot(X1,X2)) >= Marked_active(zWquot(mark(X1),mark(X2))) ; Marked_active(from(X)) > Marked_mark(cons(X,from(s(X)))) ; Marked_active(sel(s(N),cons(X,XS))) > Marked_mark(sel(N,XS)) ; Marked_active(sel(0,cons(X,XS))) > Marked_mark(X) ; Marked_active(minus(s(X),s(Y))) > Marked_mark(minus(X,Y)) ; Marked_active(quot(s(X),s(Y))) > Marked_mark(s(quot(minus(X,Y),s(Y)))) ; Marked_active(zWquot(cons(X,XS),cons(Y,YS))) > Marked_mark(cons(quot(X,Y), zWquot(XS,YS))) ; } + Disjunctions:{ } === TIMER virtual : 10.000000 === Entering poly_solver Starting Sat solver initialization Calling Sat solver... === STOPING TIMER virtual === === TIMER real : 10.000000 === === STOPING TIMER real === Sat solver returned === STOPING TIMER real === === STOPING TIMER virtual === No solution found for these parameters. Entering rpo_solver === TIMER virtual : 25.000000 === Search parameters: AFS type: 2 ; time limit: 25.. === STOPING TIMER virtual === No solution found for these parameters.(233 bt (162) [197]) === TIMER virtual : 15.000000 === Entering poly_solver Starting Sat solver initialization Calling Sat solver... === STOPING TIMER virtual === === TIMER real : 15.000000 === === STOPING TIMER real === Sat solver returned === STOPING TIMER real === === STOPING TIMER virtual === No solution found for these parameters. === TIMER virtual : 50.000000 === trying sub matrices of size: 1 Matrix interpretation constraints generated. Search parameters: LINEAR MATRIX 3x3 (strict=1x1) ; time limit: 50.. Termination constraints generated. Starting Sat solver initialization Calling Sat solver... === STOPING TIMER virtual === === TIMER real : 50.000000 === === STOPING TIMER real === Sat timeout reached === STOPING TIMER virtual === No solution found for these parameters. No solution found for these constraints. APPLY CRITERIA (ID_CRIT) APPLY CRITERIA (Graph splitting) Found 0 components: APPLY CRITERIA (Graph splitting) Found 1 components: { --> --> --> --> } APPLY CRITERIA (Subterm criterion) ST: Marked_cons -> 1 APPLY CRITERIA (Graph splitting) Found 0 components: APPLY CRITERIA (Graph splitting) Found 0 components: APPLY CRITERIA (Graph splitting) Found 1 components: { --> --> --> --> } APPLY CRITERIA (Subterm criterion) ST: Marked_sel -> 1 APPLY CRITERIA (Graph splitting) Found 0 components: APPLY CRITERIA (Graph splitting) Found 1 components: { --> --> --> --> } APPLY CRITERIA (Subterm criterion) ST: Marked_minus -> 1 APPLY CRITERIA (Graph splitting) Found 0 components: APPLY CRITERIA (Graph splitting) Found 1 components: { --> --> --> --> } APPLY CRITERIA (Subterm criterion) ST: Marked_quot -> 1 APPLY CRITERIA (Graph splitting) Found 0 components: APPLY CRITERIA (Graph splitting) Found 1 components: { --> --> --> --> } APPLY CRITERIA (Subterm criterion) ST: Marked_zWquot -> 1 APPLY CRITERIA (Graph splitting) Found 0 components: NOT SOLVED No proof found Cime worked for 115.579070 seconds (real time) Cime Exit Status: 0