NO

Initial ITS

Start location: __init
Program variables: arg1 arg2
   0: f30_0_loop_JMP -> f30_0_loop_JMP : arg1'=arg1p1, arg2'=arg2p1, (arg1p1 > 0 /\ arg2-arg2p1 == 0 /\ arg1p1-arg1 <= 0 /\ arg1 > 0), cost: 1
   1: f1_0_main_Load -> f30_0_loop_JMP : arg1'=arg1p2, arg2'=arg2p2, (-arg2p2+arg2 == 0 /\ 1+arg2 > 0 /\ arg1p2-arg1 <= 0 /\ arg1p2 > 0 /\ arg1 > 0), cost: 1
   2: __init -> f1_0_main_Load : arg1'=arg1p3, arg2'=arg2p3, T, cost: 1

Chained Linear Paths

Start location: __init
Program variables: arg1 arg2
   0: f30_0_loop_JMP -> f30_0_loop_JMP : arg1'=arg1p1, arg2'=arg2p1, (arg1p1 > 0 /\ arg2-arg2p1 == 0 /\ arg1p1-arg1 <= 0 /\ arg1 > 0), cost: 1
   3: __init -> f30_0_loop_JMP : arg1'=arg1p2, arg2'=arg2p2, (-arg2p2+arg2p3 == 0 /\ -arg1p3+arg1p2 <= 0 /\ 1+arg2p3 > 0 /\ arg1p3 > 0 /\ arg1p2 > 0), cost: 1

	Eliminating location f1_0_main_Load by chaining:

	Applied chaining

	First rule:
	__init -> f1_0_main_Load : arg1'=arg1p3, arg2'=arg2p3, T, cost: 1
	Second rule:
	f1_0_main_Load -> f30_0_loop_JMP : arg1'=arg1p2, arg2'=arg2p2, (-arg2p2+arg2 == 0 /\ 1+arg2 > 0 /\ arg1p2-arg1 <= 0 /\ arg1p2 > 0 /\ arg1 > 0), cost: 1
	New rule:
	__init -> f30_0_loop_JMP : arg1'=arg1p2, arg2'=arg2p2, (-arg2p2+arg2p3 == 0 /\ -arg1p3+arg1p2 <= 0 /\ 1+arg2p3 > 0 /\ arg1p3 > 0 /\ arg1p2 > 0), cost: 1
	
	Applied deletion

	Removed the following rules: 1 2

Simplified Transitions

Start location: __init
Program variables: arg1 arg2
   4: f30_0_loop_JMP -> f30_0_loop_JMP : arg1'=arg1p1, (arg1p1 > 0 /\ arg1p1-arg1 <= 0 /\ arg1 > 0), cost: 1
   5: __init -> f30_0_loop_JMP : arg1'=arg1p2, arg2'=arg2p3, (1+arg2p3 > 0 /\ arg1p2 > 0), cost: 1

	Propagated Equalities

	Original rule:
	f30_0_loop_JMP -> f30_0_loop_JMP : arg1'=arg1p1, arg2'=arg2p1, (arg1p1 > 0 /\ arg2-arg2p1 == 0 /\ arg1p1-arg1 <= 0 /\ arg1 > 0), cost: 1
	New rule:
	f30_0_loop_JMP -> f30_0_loop_JMP : arg1'=arg1p1, arg2'=arg2, (0 == 0 /\ arg1p1 > 0 /\ arg1p1-arg1 <= 0 /\ arg1 > 0), cost: 1
	
		propagated equality arg2p1 = arg2
		
	Simplified Guard

	Original rule:
	f30_0_loop_JMP -> f30_0_loop_JMP : arg1'=arg1p1, arg2'=arg2, (0 == 0 /\ arg1p1 > 0 /\ arg1p1-arg1 <= 0 /\ arg1 > 0), cost: 1
	New rule:
	f30_0_loop_JMP -> f30_0_loop_JMP : arg1'=arg1p1, arg2'=arg2, (arg1p1 > 0 /\ arg1p1-arg1 <= 0 /\ arg1 > 0), cost: 1
	
	Removed Trivial Updates

	Original rule:
	f30_0_loop_JMP -> f30_0_loop_JMP : arg1'=arg1p1, arg2'=arg2, (arg1p1 > 0 /\ arg1p1-arg1 <= 0 /\ arg1 > 0), cost: 1
	New rule:
	f30_0_loop_JMP -> f30_0_loop_JMP : arg1'=arg1p1, (arg1p1 > 0 /\ arg1p1-arg1 <= 0 /\ arg1 > 0), cost: 1
	
	Propagated Equalities

	Original rule:
	__init -> f30_0_loop_JMP : arg1'=arg1p2, arg2'=arg2p2, (-arg2p2+arg2p3 == 0 /\ -arg1p3+arg1p2 <= 0 /\ 1+arg2p3 > 0 /\ arg1p3 > 0 /\ arg1p2 > 0), cost: 1
	New rule:
	__init -> f30_0_loop_JMP : arg1'=arg1p2, arg2'=arg2p3, (0 == 0 /\ -arg1p3+arg1p2 <= 0 /\ 1+arg2p3 > 0 /\ arg1p3 > 0 /\ arg1p2 > 0), cost: 1
	
		propagated equality arg2p2 = arg2p3
		
	Simplified Guard

	Original rule:
	__init -> f30_0_loop_JMP : arg1'=arg1p2, arg2'=arg2p3, (0 == 0 /\ -arg1p3+arg1p2 <= 0 /\ 1+arg2p3 > 0 /\ arg1p3 > 0 /\ arg1p2 > 0), cost: 1
	New rule:
	__init -> f30_0_loop_JMP : arg1'=arg1p2, arg2'=arg2p3, (-arg1p3+arg1p2 <= 0 /\ 1+arg2p3 > 0 /\ arg1p3 > 0 /\ arg1p2 > 0), cost: 1
	
	Eliminated Temporary Variables via Transitive Closure

	Original rule:
	__init -> f30_0_loop_JMP : arg1'=arg1p2, arg2'=arg2p3, (-arg1p3+arg1p2 <= 0 /\ 1+arg2p3 > 0 /\ arg1p3 > 0 /\ arg1p2 > 0), cost: 1
	New rule:
	__init -> f30_0_loop_JMP : arg1'=arg1p2, arg2'=arg2p3, (1+arg2p3 > 0 /\ arg1p2 > 0), cost: 1

Step with 5

	Trace

	5[(1+arg2p3 > 0 /\ arg1p2 > 0)]
	
	Blocked

	[{}, {}]

Step with 4

	Trace

	5[(1+arg2p3 > 0 /\ arg1p2 > 0)], 4[(arg1p1 > 0 /\ arg1p1-arg1 <= 0 /\ arg1 > 0)]
	
	Blocked

	[{}, {}, {}]

Nonterm

Start location: __init
Program variables: arg1 arg2
   4: f30_0_loop_JMP -> f30_0_loop_JMP : arg1'=arg1p1, (arg1p1 > 0 /\ arg1p1-arg1 <= 0 /\ arg1 > 0), cost: 1
   6: f30_0_loop_JMP -> LoAT_sink : (-arg1p1+arg1 <= 0 /\ -arg1p1+arg1 >= 0 /\ arg1p1 > 0 /\ arg1 > 0), cost: NONTERM
   5: __init -> f30_0_loop_JMP : arg1'=arg1p2, arg2'=arg2p3, (1+arg2p3 > 0 /\ arg1p2 > 0), cost: 1

	Certificate of Non-Termination

	Original rule:
	f30_0_loop_JMP -> f30_0_loop_JMP : arg1'=arg1p1, (arg1p1 > 0 /\ arg1p1-arg1 <= 0 /\ arg1 > 0), cost: 1
	New rule:
	f30_0_loop_JMP -> LoAT_sink : (-arg1p1+arg1 <= 0 /\ -arg1p1+arg1 >= 0 /\ arg1p1 > 0 /\ arg1 > 0), cost: NONTERM

		-arg1p1+arg1 >= 0 [0]: monotonic increase yields -arg1p1+arg1 >= 0
		
		arg1p1 > 0 [0]: monotonic increase yields arg1p1 > 0
		
		arg1 > 0 [0]: montonic decrease yields arg1p1 > 0, dependencies: -arg1p1+arg1 >= 0
		
		arg1 > 0 [1]: eventual increase yields (-arg1p1+arg1 <= 0 /\ arg1 > 0)
		
		Replacement map: {-arg1p1+arg1 >= 0 -> -arg1p1+arg1 >= 0, arg1p1 > 0 -> arg1p1 > 0, arg1 > 0 -> (-arg1p1+arg1 <= 0 /\ arg1 > 0)}

Step with 6

	Trace

	5[(1+arg2p3 > 0 /\ arg1p2 > 0)], 6[(-arg1p1+arg1 <= 0 /\ -arg1p1+arg1 >= 0 /\ arg1p1 > 0 /\ arg1 > 0)]
	
	Blocked

	[{}, {}, {6[T]}]

Refute

	Counterexample

	[ arg1=1 arg2=0 ] 5 [ arg1=arg1 arg2=arg2 ] 6
	
NO

Build SHA: a05f16bf13df659c382799650051f91bf6828c7b