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main3.py
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import numpy as np
from foolbox2.criteria import TargetClass
from foolbox2.models.wrappers2 import CompositeModel
# from fmodel3 import create_fmodel_combo
from fmodel import create_fmodel as create_fmodel_18
from fmodel2 import create_fmodel as create_fmodel_ALP
from foolbox2.attacks.iterative_projected_gradient import MomentumIterativeAttack
from foolbox2.distances import MeanSquaredDistance
from foolbox2.adversarial import Adversarial
from adversarial_vision_challenge import load_model
from adversarial_vision_challenge import read_images
from adversarial_vision_challenge import store_adversarial
from adversarial_vision_challenge import attack_complete
from iterative import SAIterativeAttack, RMSIterativeAttack, \
AdamIterativeAttack, AdagradIterativeAttack
import os
def run_attack(model, image, target_class):
criterion = TargetClass(target_class)
# model == Composite model
# Backward model = substitute model (resnet vgg alex) used to calculate gradients
# Forward model = black-box model
# distance = MeanSquaredDistance
attack = AdamIterativeAttack(model, criterion)
# attack = foolbox.attacks.annealer(model, criterion)
# prediction of our black box model on the original image
original_label = np.argmax(model.predictions(image))
# adv = Adversarial(model, criterion, image, original_label, distance=distance)
# return attack(adv)
return attack(image, model_path = None, label = original_label)
def main():
# tf.logging.set_verbosity(tf.logging.INFO)
# instantiate blackbox and substitute model
# instantiate blackbox and substitute model
forward_model = load_model()
backward_model1 = create_fmodel_18()
backward_model2 = create_fmodel_ALP()
# print(backward_model1[0])
# instantiate differntiable composite model
# (predictions from blackbox, gradients from substitute)
model = CompositeModel(
forward_model=forward_model,
backward_models=[backward_model1,backward_model2])
for (file_name, image, label) in read_images():
adversarial = run_attack(model, image, label)
store_adversarial(file_name, adversarial)
attack_complete()
if __name__ == '__main__':
main()