1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
|
import sys
import vein
def check_property(onnx_a, onnx_b, vnnlib):
solver = vein.Solver()
print(f"--- Checking {vnnlib} ---")
solver.load_onnx(onnx_a)
solver.load_onnx(onnx_b)
solver.load_vnnlib(vnnlib)
result = solver.check()
if result == vein.unsat:
print("VERIFIED (UNSAT): The networks are equivalent under this property.", end="\n\n")
elif result == vein.sat:
print("FAILED (SAT): The networks are NOT equivalent.")
print("Counter-example input:")
print(solver.model(), end="\n\n")
# m = solver.model()
# sorted_symbols = sorted([s for s in m.decls() if s.name().startswith("X_")], key=lambda s: s.name())
# for s in sorted_symbols:
# print(f" {s.name()} = {m[s]}")
else:
print("UNKNOWN", end="\n\n")
if __name__ == "__main__":
if len(sys.argv) <= 1:
print("Net not provided")
print("Available Nets: 'xor', 'mnist', 'iris', 'acasxu', 'pendulum', 'double_integrator'")
sys.exit()
match sys.argv[1]:
case "xor":
net_a = "./examples/xor/xor_a.onnx"
net_b = "./examples/xor/xor_b.onnx"
strict = "./examples/xor/xor_strict.vnnlib"
epsilon = "./examples/xor/xor_epsilon.vnnlib"
argmax = "./examples/xor/xor_argmax.vnnlib"
case "mnist":
net_a = "./examples/mnist/mnist_a.onnx"
net_b = "./examples/mnist/mnist_b.onnx"
strict = "./examples/mnist/mnist_strict.vnnlib"
epsilon = "./examples/mnist/mnist_epsilon.vnnlib"
argmax = "./examples/mnist/mnist_argmax.vnnlib"
case "iris":
net_a = "./examples/iris/iris_a.onnx"
net_b = "./examples/iris/iris_b.onnx"
strict = "./examples/iris/iris_strict.vnnlib"
epsilon = "./examples/iris/iris_epsilon.vnnlib"
argmax = "./examples/iris/iris_argmax.vnnlib"
case "acasxu":
net_a = "./examples/ACASXU/ACASXU_run2a_1_1_batch_2000.onnx"
net_b = "./examples/ACASXU/ACASXU_run2a_1_1_batch_2000.onnx"
strict = "./examples/ACASXU/ACASXU_strict.vnnlib"
epsilon = "./examples/ACASXU/ACASXU_epsilon.vnnlib"
argmax = "./examples/ACASXU/ACASXU_argmax.vnnlib"
case "pendulum":
net_a = "./examples/pendulum/pendulum_finetune_con.onnx"
net_b = "./examples/pendulum/pendulum_finetune_con.onnx"
strict = "./examples/pendulum/pendulum_strict.vnnlib"
epsilon = "./examples/pendulum/pendulum_epsilon.vnnlib"
argmax = "./examples/pendulum/pendulum_argmax.vnnlib"
case "double_integrator":
net_a = "./examples/double_integrator/double_integrator_finetune_inv.onnx"
net_b = "./examples/double_integrator/double_integrator_finetune_inv.onnx"
strict = "./examples/double_integrator/double_integrator_strict.vnnlib"
epsilon = "./examples/double_integrator/double_integrator_epsilon.vnnlib"
argmax = "./examples/double_integrator/double_integrator_argmax.vnnlib"
case _:
print("Available Nets: 'xor', 'mnist', 'iris', 'acasxu', 'pendulum', 'double_integrator'")
sys.exit()
print(f"=== Comparing {net_a} and {net_b} ===", end="\n\n")
check_property(net_a, net_b, strict)
check_property(net_a, net_b, epsilon)
check_property(net_a, net_b, argmax)
|
