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+#!/usr/bin/env python
+# Author: Vasil Zlatanov, Nunzio Pucci
+# EE4 Pattern Recognition coursework
+#
+# usage: part2.py [-h] [-t] [-cm] [-km] [-ma] [-e] [-r] [-ka RERANKA]
+# [-kb RERANKB] [-v]
+
+import matplotlib.pyplot as plt
+from mpl_toolkits.mplot3d import Axes3D
+import sys
+import random
+import os
+import json
+import scipy.io
+from random import randint
+from sklearn.neighbors import KNeighborsClassifier
+from sklearn.neighbors import DistanceMetric
+from sklearn.cluster import KMeans
+from sklearn.decomposition import PCA
+from sklearn.discriminant_analysis import LinearDiscriminantAnalysis
+from sklearn.model_selection import train_test_split
+from sklearn.preprocessing import StandardScaler
+from sklearn.metrics import confusion_matrix
+from sklearn.metrics import accuracy_score
+import argparse
+import numpy as np
+from numpy import genfromtxt
+from numpy import linalg as LA
+from timeit import default_timer as timer
+from scipy.spatial.distance import cdist
+sys.path.append('lib')
+from rerank import re_ranking
+from kmean import create_kmean_clusters
+import logging
+from logging import debug
+
+parser = argparse.ArgumentParser()
+parser.add_argument("-t", "--train", help="Use test data instead of query", action='store_true')
+parser.add_argument("-c", "--conf_mat", help="Show visual confusion matrix", action='store_true')
+parser.add_argument("-k", "--kmean", help="Perform Kmeans", action='store_true', default=0)
+parser.add_argument("-m", "--mahalanobis", help="Perform Mahalanobis Distance metric", action='store_true', default=0)
+parser.add_argument("-e", "--euclidean", help="Standard euclidean", action='store_true', default=0)
+parser.add_argument("-r", "--rerank", help="Use k-reciprocal rernaking", action='store_true')
+parser.add_argument("-p", "--reranka", help="Parameter 1 for Rerank", type=int, default = 20)
+parser.add_argument("-q", "--rerankb", help="Parameter 2 for rerank", type=int, default = 6)
+parser.add_argument("-l", "--rerankl", help="Coefficient to combine distances", type=int, default = 0.3)
+parser.add_argument("-n", "--neighbors", help="Number of neighbors", type=int, default = 1)
+parser.add_argument("-v", "--verbose", help="Use verbose output", action='store_true')
+parser.add_argument("-s", "--showrank", help="Save ranklist pic id in a txt file", type=int, default = 0)
+parser.add_argument("-2", "--graphspace", help="Graph space", action='store_true', default=0)
+parser.add_argument("-1", "--normalise", help="Normalized features", action='store_true', default=0)
+parser.add_argument("-M", "--multrank", help="Run for different ranklist sizes equal to M", type=int, default=1)
+parser.add_argument("-C", "--comparison", help="Set to 2 to obtain a comparison of baseline and Improved metric", type=int, default=1)
+parser.add_argument("--data", help="Data folder with features data", default='data')
+
+
+args = parser.parse_args()
+if args.verbose:
+ logging.basicConfig(level=logging.DEBUG)
+
+def draw_results(test_label, pred_label):
+ acc_sc = accuracy_score(test_label, pred_label)
+ cm = confusion_matrix(test_label, pred_label)
+ print('Accuracy: ', acc_sc)
+ if (args.conf_mat):
+ plt.matshow(cm, cmap='Blues')
+ plt.colorbar()
+ plt.ylabel('Actual')
+ plt.xlabel('Predicted')
+ plt.show()
+ return acc_sc
+
+def test_model(gallery_data, probe_data, gallery_label, probe_label, gallery_cam, probe_cam, showfiles_train, showfiles_test, args):
+
+ debug("probe shape: %s", probe_data.shape)
+ debug("gallery shape: %s", gallery_data.shape)
+
+ if args.rerank:
+ distances = re_ranking(probe_data, gallery_data,
+ args.reranka, args.rerankb, args.rerankl,
+ MemorySave = False, Minibatch = 2000)
+ else:
+ if args.mahalanobis:
+ # metric = 'jaccard' is also valid
+ distances = cdist(probe_data, gallery_data, 'jaccard')
+ else:
+ distances = cdist(probe_data, gallery_data, 'euclidean')
+
+ ranklist = np.argsort(distances, axis=1)
+
+ test_table = np.arange(1, args.multrank+1)
+ target_pred = np.zeros((args.multrank, ranklist.shape[0]))
+ nsize = args.neighbors
+ if (args.multrank != 1):
+ nsize = test_table[args.multrank-1]
+ nneighbors = np.zeros((ranklist.shape[0],nsize))
+ nnshowrank = (np.zeros((ranklist.shape[0],nsize))).astype(object)
+
+
+ for i in range(args.multrank):
+ if args.multrank!= 1:
+ args.neighbors = test_table[i]
+ for probe_idx in range(probe_data.shape[0]):
+ row = ranklist[probe_idx]
+ n = 0
+ q = 0
+ while (q < args.neighbors):
+ while (probe_cam[probe_idx] == gallery_cam[row[n]] and
+ probe_label[probe_idx] == gallery_label[row[n]]):
+ n += 1
+ nneighbors[probe_idx][q] = gallery_label[row[n]]
+ nnshowrank[probe_idx][q] = showfiles_train[row[n]] #
+ q += 1
+ n += 1
+
+ if (args.neighbors) and (probe_label[probe_idx] in nneighbors[probe_idx]):
+ target_pred[i][probe_idx] = probe_label[probe_idx]
+ else:
+ target_pred[i][probe_idx] = nneighbors[probe_idx][0]
+
+
+ if (args.showrank):
+ with open("ranklist.txt", "w") as text_file:
+ text_file.write(np.array2string(nnshowrank[:args.showrank]))
+ with open("query.txt", "w") as text_file:
+ text_file.write(np.array2string(showfiles_test[:args.showrank]))
+
+ if args.graphspace:
+ # Colors for distinct individuals
+ cols = ['#{:06x}'.format(randint(0, 0xffffff)) for i in range(1467)]
+ gallery_label_tmp = np.subtract(gallery_label, 1)
+ pltCol = [cols[int(k)] for k in gallery_label_tmp]
+ fig = plt.figure()
+ ax = fig.add_subplot(111, projection='3d')
+ ax.scatter(gallery_data[:, 0], gallery_data[:, 1], gallery_data[:, 2], marker='o', color=pltCol)
+ plt.show()
+ return target_pred
+
+def main():
+ logging.debug("Verbose mode is on")
+ mat = scipy.io.loadmat(os.path.join(args.data,'cuhk03_new_protocol_config_labeled.mat'))
+ camId = mat['camId']
+ filelist = mat['filelist']
+ labels = mat['labels']
+ gallery_idx = mat['gallery_idx'] - 1
+ query_idx = mat['query_idx'] - 1
+ train_idx = mat['train_idx'] - 1
+ with open(os.path.join(args.data,'feature_data.json'), 'r') as read_file:
+ feature_vectors = np.array(json.load(read_file))
+ if args.train:
+ query_idx = train_idx.reshape(train_idx.shape[0])
+ gallery_idx = train_idx.reshape(train_idx.shape[0])
+ else:
+ query_idx = query_idx.reshape(query_idx.shape[0])
+ gallery_idx = gallery_idx.reshape(gallery_idx.shape[0])
+ camId = camId.reshape(camId.shape[0])
+
+ showfiles_train = filelist[gallery_idx]
+ showfiles_test = filelist[query_idx]
+ train_data = feature_vectors[gallery_idx]
+ test_data = feature_vectors[query_idx]
+ train_label = labels[gallery_idx]
+ test_label = labels[query_idx]
+ train_cam = camId[gallery_idx]
+ test_cam = camId[query_idx]
+
+ accuracy = np.zeros((2, args.multrank))
+ test_table = np.arange(1, args.multrank+1)
+
+ if (args.normalise):
+ debug("Normalising data")
+ train_data = np.divide(train_data,LA.norm(train_data, axis=0))
+ test_data = np.divide(test_data, LA.norm(test_data, axis=0))
+ if(args.kmean):
+ debug("Using Kmeans")
+ train_data, train_label, train_cam = create_kmean_clusters(feature_vectors,
+ labels,
+ gallery_idx,
+ camId)
+ for q in range(args.comparison):
+ target_pred = test_model(train_data, test_data, train_label, test_label, train_cam, test_cam, showfiles_train, showfiles_test, args)
+ for i in range(args.multrank):
+ accuracy[q][i] = draw_results(test_label, target_pred[i])
+ args.rerank = True
+ args.neighbors = 1
+
+ if(args.multrank != 1):
+ plt.plot(test_table[:(args.multrank)], 100*accuracy[0])
+ if(args.comparison!=1):
+ plt.plot(test_table[:(args.multrank)], 100*accuracy[1])
+ plt.legend(['Baseline kNN', 'Improved metric'], loc='upper left')
+ plt.xlabel('k rank')
+ plt.ylabel('Recognition Accuracy (%)')
+ plt.grid(True)
+ plt.show()
+
+
+if __name__ == "__main__":
+ main()
+