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- from sklearn.externals import joblib
- import numpy as np
- import pandas as pd
- from sklearn.metrics import accuracy_score
- from keras.models import Sequential
- from keras.layers import Conv1D, MaxPooling1D
- from keras.layers import Activation, Dropout, Flatten, Dense, BatchNormalization
- from keras import backend as K
- from keras.models import model_from_json
- from keras.wrappers.scikit_learn import KerasClassifier
- import sys, os, getopt
- import json
- from modules.utils import config as cfg
- output_model_folder = cfg.saved_models_folder
- def main():
- # TODO : use of argparse
-
- if len(sys.argv) <= 1:
- print('Run with default parameters...')
- print('python prediction_scene.py --data xxxx.csv --model xxxx.joblib --output xxxx --scene xxxx')
- sys.exit(2)
- try:
- opts, args = getopt.getopt(sys.argv[1:], "hd:o:s", ["help=", "data=", "model=", "output=", "scene="])
- except getopt.GetoptError:
- # print help information and exit:
- print('python prediction_scene.py --data xxxx.csv --model xxxx.joblib --output xxxx --scene xxxx')
- sys.exit(2)
- for o, a in opts:
- if o == "-h":
- print('python prediction_scene.py --data xxxx.csv --model xxxx.joblib --output xxxx --scene xxxx')
- sys.exit()
- elif o in ("-d", "--data"):
- p_data_file = a
- elif o in ("-m", "--model"):
- p_model_file = a
- elif o in ("-o", "--output"):
- p_output = a
- elif o in ("-s", "--scene"):
- p_scene = a
- else:
- assert False, "unhandled option"
- if '.joblib' in p_model_file:
- kind_model = 'sklearn'
- model_ext = '.joblib'
- if '.json' in p_model_file:
- kind_model = 'keras'
- model_ext = '.json'
- if not os.path.exists(output_model_folder):
- os.makedirs(output_model_folder)
- dataset = pd.read_csv(p_data_file, header=None, sep=";")
- y_dataset = dataset.ix[:,0]
- x_dataset = dataset.ix[:,1:]
- noisy_dataset = dataset[dataset.ix[:, 0] == 1]
- not_noisy_dataset = dataset[dataset.ix[:, 0] == 0]
- y_noisy_dataset = noisy_dataset.ix[:, 0]
- x_noisy_dataset = noisy_dataset.ix[:, 1:]
- y_not_noisy_dataset = not_noisy_dataset.ix[:, 0]
- x_not_noisy_dataset = not_noisy_dataset.ix[:, 1:]
- if kind_model == 'keras':
- with open(p_model_file, 'r') as f:
- json_model = json.load(f)
- model = model_from_json(json_model)
- model.load_weights(p_model_file.replace('.json', '.h5'))
- model.compile(loss='binary_crossentropy',
- optimizer='adam',
- metrics=['accuracy'])
- _, vector_size = np.array(x_dataset).shape
- # reshape all data
- x_dataset = np.array(x_dataset).reshape(len(x_dataset), vector_size, 1)
- x_noisy_dataset = np.array(x_noisy_dataset).reshape(len(x_noisy_dataset), vector_size, 1)
- x_not_noisy_dataset = np.array(x_not_noisy_dataset).reshape(len(x_not_noisy_dataset), vector_size, 1)
- if kind_model == 'sklearn':
- model = joblib.load(p_model_file)
- if kind_model == 'keras':
- y_pred = model.predict_classes(x_dataset)
- y_noisy_pred = model.predict_classes(x_noisy_dataset)
- y_not_noisy_pred = model.predict_classes(x_not_noisy_dataset)
- if kind_model == 'sklearn':
- y_pred = model.predict(x_dataset)
- y_noisy_pred = model.predict(x_noisy_dataset)
- y_not_noisy_pred = model.predict(x_not_noisy_dataset)
- accuracy_global = accuracy_score(y_dataset, y_pred)
- accuracy_noisy = accuracy_score(y_noisy_dataset, y_noisy_pred)
- accuracy_not_noisy = accuracy_score(y_not_noisy_dataset, y_not_noisy_pred)
- if(p_scene):
- print(p_scene + " | " + str(accuracy_global) + " | " + str(accuracy_noisy) + " | " + str(accuracy_not_noisy))
- else:
- print(str(accuracy_global) + " \t | " + str(accuracy_noisy) + " \t | " + str(accuracy_not_noisy))
- with open(p_output, 'w') as f:
- f.write("Global accuracy found %s " % str(accuracy_global))
- f.write("Noisy accuracy found %s " % str(accuracy_noisy))
- f.write("Not noisy accuracy found %s " % str(accuracy_not_noisy))
- for prediction in y_pred:
- f.write(str(prediction) + '\n')
- if __name__== "__main__":
- main()
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