unknown Initial ITS Start location: [1] Program variables: x y 0: [1] -> [2] : x'=nondet, T, cost: 1 1: [2] -> [3] : y'=nondet1, T, cost: 1 2: [3] -> [5] : -1+2*y >= 0, cost: 1 8: [3] -> [4] : -1+2*y < 0, cost: 1 3: [5] -> [6] : x >= 0, cost: 1 6: [5] -> [8] : x < 0, cost: 1 4: [6] -> [7] : x'=-1-2*y+x, T, cost: 1 5: [7] -> [5] : T, cost: 1 7: [8] -> [4] : T, cost: 1 Chained Linear Paths Start location: [1] Program variables: x y 9: [1] -> [3] : x'=nondet, y'=nondet1, T, cost: 1 2: [3] -> [5] : -1+2*y >= 0, cost: 1 8: [3] -> [4] : -1+2*y < 0, cost: 1 11: [5] -> [4] : x < 0, cost: 1 12: [5] -> [5] : x'=-1-2*y+x, x >= 0, cost: 1 Eliminating location [2] by chaining: Applied chaining First rule: [1] -> [2] : x'=nondet, T, cost: 1 Second rule: [2] -> [3] : y'=nondet1, T, cost: 1 New rule: [1] -> [3] : x'=nondet, y'=nondet1, T, cost: 1 Applied deletion Removed the following rules: 0 1 Eliminating location [6] by chaining: Applied chaining First rule: [5] -> [6] : x >= 0, cost: 1 Second rule: [6] -> [7] : x'=-1-2*y+x, T, cost: 1 New rule: [5] -> [7] : x'=-1-2*y+x, x >= 0, cost: 1 Applied deletion Removed the following rules: 3 4 Eliminating location [8] by chaining: Applied chaining First rule: [5] -> [8] : x < 0, cost: 1 Second rule: [8] -> [4] : T, cost: 1 New rule: [5] -> [4] : x < 0, cost: 1 Applied deletion Removed the following rules: 6 7 Eliminating location [7] by chaining: Applied chaining First rule: [5] -> [7] : x'=-1-2*y+x, x >= 0, cost: 1 Second rule: [7] -> [5] : T, cost: 1 New rule: [5] -> [5] : x'=-1-2*y+x, x >= 0, cost: 1 Applied deletion Removed the following rules: 5 10 Step with 9 Trace 9[T] Blocked [{}, {}] Step with 2 Trace 9[T], 2[(-1+2*y >= 0)] Blocked [{}, {}, {}] Step with 11 Trace 9[T], 2[(-1+2*y >= 0)], 11[(x < 0)] Blocked [{}, {}, {}, {}] Backtrack Trace 9[T], 2[(-1+2*y >= 0)] Blocked [{}, {}, {11[T]}] Step with 12 Trace 9[T], 2[(-1+2*y >= 0)], 12[(x >= 0)] Blocked [{}, {}, {11[T]}, {}] Accelerate Start location: [1] Program variables: x y 9: [1] -> [3] : x'=nondet, y'=nondet1, T, cost: 1 2: [3] -> [5] : -1+2*y >= 0, cost: 1 8: [3] -> [4] : -1+2*y < 0, cost: 1 11: [5] -> [4] : x < 0, cost: 1 12: [5] -> [5] : x'=-1-2*y+x, x >= 0, cost: 1 13: [5] -> LoAT_sink : (1+2*y <= 0 /\ x >= 0), cost: NONTERM 14: [5] -> [5] : x'=-n-2*n*y+x, (1-2*(-1+n)*y-n+x >= 0 /\ -1+n >= 0 /\ x >= 0), cost: 1 Certificate of Non-Termination Original rule: [5] -> [5] : x'=-1-2*y+x, (x >= 0), cost: 1 New rule: [5] -> LoAT_sink : (1+2*y <= 0 /\ x >= 0), cost: NONTERM x >= 0 [0]: eventual decrease yields (1-2*(-1+n)*y-n+x >= 0 /\ x >= 0) x >= 0 [1]: eventual increase yields (1+2*y <= 0 /\ x >= 0) Replacement map: {x >= 0 -> (1+2*y <= 0 /\ x >= 0)} Loop Acceleration Original rule: [5] -> [5] : x'=-1-2*y+x, (x >= 0), cost: 1 New rule: [5] -> [5] : x'=-n-2*n*y+x, (1-2*(-1+n)*y-n+x >= 0 /\ -1+n >= 0 /\ x >= 0), cost: 1 x >= 0 [0]: eventual decrease yields (1-2*(-1+n)*y-n+x >= 0 /\ x >= 0) x >= 0 [1]: eventual increase yields (1+2*y <= 0 /\ x >= 0) Replacement map: {x >= 0 -> (1-2*(-1+n)*y-n+x >= 0 /\ x >= 0)} Trace 9[T], 2[(-1+2*y >= 0)], 14[(1-2*(-1+n)*y-n+x >= 0 /\ -1+n >= 0 /\ x >= 0)] Blocked [{}, {}, {11[T]}, {12[T], 14[T]}] Step with 11 Trace 9[T], 2[(-1+2*y >= 0)], 14[(1-2*(-1+n)*y-n+x >= 0 /\ -1+n >= 0 /\ x >= 0)], 11[(x < 0)] Blocked [{}, {}, {11[T]}, {12[T], 13[T], 14[T]}, {}] Backtrack Trace 9[T], 2[(-1+2*y >= 0)], 14[(1-2*(-1+n)*y-n+x >= 0 /\ -1+n >= 0 /\ x >= 0)] Blocked [{}, {}, {11[T]}, {11[T], 12[T], 13[T], 14[T]}] Backtrack Trace 9[T], 2[(-1+2*y >= 0)] Blocked [{}, {}, {11[T], 14[T]}] Step with 12 Trace 9[T], 2[(-1+2*y >= 0)], 12[(x >= 0)] Blocked [{}, {}, {11[T], 14[T]}, {}] Covered Trace 9[T], 2[(-1+2*y >= 0)] Blocked [{}, {}, {11[T], 12[T], 14[T]}] Backtrack Trace 9[T] Blocked [{}, {2[T]}] Step with 8 Trace 9[T], 8[(-1+2*y < 0)] Blocked [{}, {2[T]}, {}] Backtrack Trace 9[T] Blocked [{}, {2[T], 8[T]}] Backtrack Trace Blocked [{9[T]}] Accept unknown Build SHA: a05f16bf13df659c382799650051f91bf6828c7b