import argparse from keras.utils import np_utils import dataset import models parser = argparse.ArgumentParser() # parser.add_argument("--modes", action="store", dest="modes", nargs="+") parser.add_argument("--train", action="store", dest="train_data", default="data/full_dataset.csv.tar.bz2") parser.add_argument("--test", action="store", dest="test_data", default="data/full_future_dataset.csv.tar.bz2") # parser.add_argument("--h5data", action="store", dest="h5data", # default="") # parser.add_argument("--model", action="store", dest="model", default="model_x") # parser.add_argument("--pred", action="store", dest="pred", # default="") # # parser.add_argument("--type", action="store", dest="model_type", # default="simple_conv") # parser.add_argument("--batch", action="store", dest="batch_size", default=64, type=int) parser.add_argument("--epochs", action="store", dest="epochs", default=10, type=int) # parser.add_argument("--samples", action="store", dest="samples", # default=100000, type=int) # # parser.add_argument("--samples_val", action="store", dest="samples_val", # default=10000, type=int) # parser.add_argument("--embd", action="store", dest="embedding", default=128, type=int) parser.add_argument("--hidden_char_dims", action="store", dest="hidden_char_dims", default=256, type=int) parser.add_argument("--window", action="store", dest="window", default=10, type=int) parser.add_argument("--domain_length", action="store", dest="domain_length", default=40, type=int) parser.add_argument("--domain_embd", action="store", dest="domain_embedding", default=512, type=int) # parser.add_argument("--queue", action="store", dest="queue_size", # default=50, type=int) # # parser.add_argument("--p", action="store", dest="p_train", # default=0.5, type=float) # # parser.add_argument("--p_val", action="store", dest="p_val", # default=0.01, type=float) # # parser.add_argument("--gpu", action="store", dest="gpu", # default=0, type=int) # # parser.add_argument("--tmp", action="store_true", dest="tmp") # # parser.add_argument("--test", action="store_true", dest="test") args = parser.parse_args() # config = tf.ConfigProto(log_device_placement=True) # config.gpu_options.per_process_gpu_memory_fraction = 0.5 # config.gpu_options.allow_growth = True # session = tf.Session(config=config) def main(): # parameter cnnDropout = 0.5 cnnHiddenDims = 1024 numCiscoFeatures = 30 kernel_size = 3 drop_out = 0.5 filters = 128 network = models.pauls_networks char_dict = dataset.get_character_dict() user_flow_df = dataset.get_user_flow_data(args.train_data) print("create training dataset") domain_tr, flow_tr, client_tr, server_tr = dataset.create_dataset_from_flows( user_flow_df, char_dict, max_len=args.domain_length, window_size=args.window) shared_cnn = network.get_embedding(len(char_dict) + 1, args.embedding, args.domain_length, args.hidden_char_dims, kernel_size, args.domain_embedding, 0.5) shared_cnn.summary() model = network.get_model(cnnDropout, flow_tr.shape[-1], args.domain_embedding, args.window, args.domain_length, filters, kernel_size, cnnHiddenDims, shared_cnn) model.summary() model.compile(optimizer='adam', loss='binary_crossentropy', metrics=['accuracy']) client_tr = np_utils.to_categorical(client_tr, 2) server_tr = np_utils.to_categorical(server_tr, 2) model.fit([domain_tr, flow_tr], [client_tr, server_tr], batch_size=args.batch_size, epochs=args.epochs, shuffle=True, validation_split=0.2) def main_train(): pass def main_test(): char_dict = dataset.get_character_dict() user_flow_df = dataset.get_user_flow_data(args.test_data) domain_val, flow_val, client_val, server_val = dataset.create_dataset_from_flows( user_flow_df, char_dict, max_len=args.domain_length, window_size=args.window) # TODO: get model and exec model.evaluate(...) if __name__ == "__main__": main()