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] -> [4] : (y < 0 /\ x > 0), cost: 1
   6: [3] -> [7] : (y >= 0 \/ x <= 0), cost: 1
   3: [4] -> [5] : x'=y+x, T, cost: 1
   4: [5] -> [6] : y'=-1+y, T, cost: 1
   5: [6] -> [3] : T, cost: 1

Chained Linear Paths

Start location: [1]
Program variables: x y
   7: [1] -> [3] : x'=nondet, y'=nondet1, T, cost: 1
   6: [3] -> [7] : (y >= 0 \/ x <= 0), cost: 1
  10: [3] -> [3] : x'=y+x, y'=-1+y, (y < 0 /\ 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 [4] by chaining:

	Applied chaining

	First rule:
	[3] -> [4] : (y < 0 /\ x > 0), cost: 1
	Second rule:
	[4] -> [5] : x'=y+x, T, cost: 1
	New rule:
	[3] -> [5] : x'=y+x, (y < 0 /\ x > 0), cost: 1
	
	Applied deletion

	Removed the following rules: 2 3
	
	Eliminating location [5] by chaining:

	Applied chaining

	First rule:
	[3] -> [5] : x'=y+x, (y < 0 /\ x > 0), cost: 1
	Second rule:
	[5] -> [6] : y'=-1+y, T, cost: 1
	New rule:
	[3] -> [6] : x'=y+x, y'=-1+y, (y < 0 /\ x > 0), cost: 1
	
	Applied deletion

	Removed the following rules: 4 8
	
	Eliminating location [6] by chaining:

	Applied chaining

	First rule:
	[3] -> [6] : x'=y+x, y'=-1+y, (y < 0 /\ x > 0), cost: 1
	Second rule:
	[6] -> [3] : T, cost: 1
	New rule:
	[3] -> [3] : x'=y+x, y'=-1+y, (y < 0 /\ x > 0), cost: 1
	
	Applied deletion

	Removed the following rules: 5 9

Step with 7

	Trace

	7[T]
	
	Blocked

	[{}, {}]

Step with 6

	Trace

	7[T], 6[(y >= 0)]
	
	Blocked

	[{}, {}, {}]

Backtrack

	Trace

	7[T]
	
	Blocked

	[{}, {6[y >= 0]}]

Step with 6

	Trace

	7[T], 6[(x <= 0)]
	
	Blocked

	[{}, {6[y >= 0]}, {}]

Backtrack

	Trace

	7[T]
	
	Blocked

	[{}, {6[(y >= 0 /\ x <= 0)]}]

Step with 10

	Trace

	7[T], 10[(y < 0 /\ x > 0)]
	
	Blocked

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

Accelerate

Start location: [1]
Program variables: x y
   7: [1] -> [3] : x'=nondet, y'=nondet1, T, cost: 1
   6: [3] -> [7] : (y >= 0 \/ x <= 0), cost: 1
  10: [3] -> [3] : x'=y+x, y'=-1+y, (y < 0 /\ x > 0), cost: 1
  11: [3] -> [3] : x'=1/2*n+n*y-1/2*n^2+x, y'=-n+y, (-1+n >= 0 /\ -1/2+1/2*n+(-1+n)*y-1/2*(-1+n)^2+x > 0 /\ -y > 0), cost: 1

	Loop Acceleration

	Original rule:
	[3] -> [3] : x'=y+x, y'=-1+y, (y < 0 /\ x > 0), cost: 1
	New rule:
	[3] -> [3] : x'=1/2*n+n*y-1/2*n^2+x, y'=-n+y, (-1+n >= 0 /\ -1/2+1/2*n+(-1+n)*y-1/2*(-1+n)^2+x > 0 /\ -y > 0), cost: 1

		-y > 0 [0]: monotonic increase yields -y > 0
		
		x > 0 [0]: montonic decrease yields -1/2+1/2*n+(-1+n)*y-1/2*(-1+n)^2+x > 0, dependencies: -y > 0
		
		x > 0 [1]: eventual increase yields (-y <= 0 /\ x > 0), dependencies: -y > 0
		
		Replacement map: {-y > 0 -> -y > 0, x > 0 -> -1/2+1/2*n+(-1+n)*y-1/2*(-1+n)^2+x > 0}

	Trace

	7[T], 11[(-1+n >= 0 /\ -1/2+1/2*n+(-1+n)*y-1/2*(-1+n)^2+x > 0 /\ -y > 0)]
	
	Blocked

	[{}, {6[T]}, {10[T], 11[T]}]

Step with 6

	Trace

	7[T], 11[(-1+n >= 0 /\ -1/2+1/2*n+(-1+n)*y-1/2*(-1+n)^2+x > 0 /\ -y > 0)], 6[(x <= 0)]
	
	Blocked

	[{}, {6[T]}, {10[T], 11[T]}, {}]

Backtrack

	Trace

	7[T], 11[(-1+n >= 0 /\ -1/2+1/2*n+(-1+n)*y-1/2*(-1+n)^2+x > 0 /\ -y > 0)]
	
	Blocked

	[{}, {6[T]}, {6[x <= 0], 10[T], 11[T]}]

Backtrack

	Trace

	7[T]
	
	Blocked

	[{}, {6[T], 11[T]}]

Step with 10

	Trace

	7[T], 10[(y < 0 /\ x > 0)]
	
	Blocked

	[{}, {6[T], 11[T]}, {}]

Covered

	Trace

	7[T]
	
	Blocked

	[{}, {6[T], 10[T], 11[T]}]

Backtrack

	Trace

	Blocked

	[{7[T]}]

Accept

unknown

Build SHA: a05f16bf13df659c382799650051f91bf6828c7b