YES Solver Timeout: 4 Global Timeout: 300 No parsing errors! Init Location: 0 Transitions: 0, arg2 -> 0, arg3 -> 0}> ~(1)) /\ (arg1 > ~(1)) /\ (arg2 < 1001) /\ (arg2 = arg3), par{arg1 -> (arg1 + arg2), arg2 -> (arg2 + 1), arg3 -> (arg2 + 1)}> 1000) /\ (arg2 = arg3), par{arg1 -> 0, arg2 -> 0, arg3 -> 0}> ~(1)) /\ (arg1 > ~(1)) /\ (arg2 < 1001) /\ (arg2 = arg3), par{arg1 -> (arg1 + arg2), arg2 -> (arg2 + 2), arg3 -> (arg2 + 2)}> 1000) /\ (arg2 = arg3), par{arg1 -> 0, arg2 -> 0, arg3 -> 0}> ~(1)) /\ (arg1 > ~(1)) /\ (arg2 < 1001) /\ (arg2 = arg3), par{arg1 -> (arg1 + arg2), arg2 -> (arg2 + 3), arg3 -> (arg2 + 3)}> undef19, arg2 -> undef20, arg3 -> undef21}> Fresh variables: undef19, undef20, undef21, Undef variables: undef19, undef20, undef21, Abstraction variables: Exit nodes: Accepting locations: Asserts: Preprocessed LLVMGraph Init Location: 0 Transitions: ~(1)) /\ (arg1 > ~(1)) /\ (arg2 < 1001) /\ (arg2 = arg3), par{arg1 -> (arg1 + arg2), arg2 -> (arg2 + 1), arg3 -> (arg2 + 1)}> 1000) /\ (arg2 = arg3), par{arg1 -> 0, arg2 -> 0, arg3 -> 0}> ~(1)) /\ (arg1 > ~(1)) /\ (arg2 < 1001) /\ (arg2 = arg3), par{arg1 -> (arg1 + arg2), arg2 -> (arg2 + 2), arg3 -> (arg2 + 2)}> 1000) /\ (arg2 = arg3), par{arg1 -> 0, arg2 -> 0, arg3 -> 0}> ~(1)) /\ (arg1 > ~(1)) /\ (arg2 < 1001) /\ (arg2 = arg3), par{arg1 -> (arg1 + arg2), arg2 -> (arg2 + 3), arg3 -> (arg2 + 3)}> Fresh variables: undef19, undef20, undef21, Undef variables: undef19, undef20, undef21, Abstraction variables: Exit nodes: Accepting locations: Asserts: ************************************************************* ******************************************************************************************* *********************** WORKING TRANSITION SYSTEM (DAG) *********************** ******************************************************************************************* Init Location: 0 Graph 0: Transitions: Variables: Graph 1: Transitions: arg1 + arg2, arg2 -> 1 + arg2, arg3 -> 1 + arg2, rest remain the same}> Variables: arg1, arg2, arg3 Graph 2: Transitions: arg1 + arg2, arg2 -> 2 + arg2, arg3 -> 2 + arg2, rest remain the same}> Variables: arg1, arg2, arg3 Graph 3: Transitions: arg1 + arg2, arg2 -> 3 + arg2, arg3 -> 3 + arg2, rest remain the same}> Variables: arg1, arg2, arg3 Precedence: Graph 0 Graph 1 Graph 2 0, arg2 -> 0, arg3 -> 0, rest remain the same}> Graph 3 0, arg2 -> 0, arg3 -> 0, rest remain the same}> Map Locations to Subgraph: ( 0 , 0 ) ( 2 , 1 ) ( 3 , 2 ) ( 4 , 3 ) ******************************************************************************************* ******************************** CHECKING ASSERTIONS ******************************** ******************************************************************************************* Proving termination of subgraph 0 Proving termination of subgraph 1 Checking unfeasibility... Time used: 0.002276 Checking conditional termination of SCC {l2}... LOG: CALL solveLinear LOG: RETURN solveLinear - Elapsed time: 0.000873s Ranking function: 1000 - arg2 New Graphs: Proving termination of subgraph 2 Checking unfeasibility... Time used: 0.001546 Checking conditional termination of SCC {l3}... LOG: CALL solveLinear LOG: RETURN solveLinear - Elapsed time: 0.000655s Ranking function: 500 + (~(1) / 2)*arg2 New Graphs: Proving termination of subgraph 3 Checking unfeasibility... Time used: 0.001496 Checking conditional termination of SCC {l4}... LOG: CALL solveLinear LOG: RETURN solveLinear - Elapsed time: 0.000634s Ranking function: (1000 / 3) + (~(1) / 3)*arg2 New Graphs: Program Terminates