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npp.py
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npp.py
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from copy import copy
from itertools import combinations
import numpy as np
import pandas as pd
import os.path
from scipy import spatial
import sklearn.preprocessing as pp
from scipy import sparse
import pickle
import time
class LSH:
def __init__(self, data, orig_data, sim_mat_load = False):
self.data = data
self.orig_data = orig_data
self.m = len(orig_data[0])
self.buckets = None
self.vectors = None
self.num_vector = None
self.sparsedata = None
self.div_num = 1
self.sparsedata = sparse.csc_matrix(orig_data)
begin = time.process_time()
if not sim_mat_load:
self.sim_mat = self.getSimilarity()
else:
self.sim_mat = self.loadSimMat()
end = time.process_time()
print("simmat propro", end - begin )
#print("similirez")
begin = time.process_time()
self.aver_mov = self.getAverage()
end = time.process_time()
print("aver propro", end - begin )
def gen_orthagonal(self, k):
x = np.random.rand(len(k))
x -= x.dot(k)*k
x /= np.linalg.norm(x)
return x
def gen_rand_vecs(self, n):
print("New")
k = np.random.rand(n)
rand_vecs = []
rand_vecs.append(k)
for i in range(self.m - 1):
rand_vecs.append(self.gen_orthagonal(k))
return rand_vecs
def train(self, num_vector):
dim = self.data.shape[1]
self.num_vector = num_vector
random_vectors = []
""" for i in range(self.div_num):
random_vectors.append( np.random.randn(int(dim/self.div_num), num_vector) ) """
random_vectors.append(self.gen_rand_vecs(num_vector))
#print(len(random_vectors[0]))
bin_to_decimal = 1 << np.arange(num_vector - 1, -1, -1)
table =[]
bin_index_bits = []
bin_index_arr = []
datasplitted = np.hsplit( data, self.div_num )
for i in range(self.div_num):
table.append({})
bin_index_bits.append( ( datasplitted[i].dot( random_vectors[i]) >= 0) )
# Encode bin index bits into integers
bin_index_arr.append( bin_index_bits[i].dot(bin_to_decimal))
for data_point, bin_index in enumerate(bin_index_arr[i]):
if bin_index not in table[i]:
table[i][bin_index] = []
table[i][bin_index].append(data_point)
self.buckets = table
self.vectors = random_vectors
def query(self, movieId):
similars = []
bin_to_decimal = 1 << np.arange(self.num_vector - 1, -1, -1)
datasplitted = np.hsplit( self.data, self.div_num )
for i in range(self.div_num):
bit_arr = datasplitted[i][movieId].dot(self.vectors[i]) >= 0
bin_index = bit_arr.dot(bin_to_decimal)
k = self.buckets[i][bin_index]
for item in k:
if item not in similars:
similars.append(item)
return similars
def predict_rating(self, userId, movieId):
sim_total = 0
sum_total = 0
similars = self.query(userId)
#print("Similar user count: ", len(similars))
for i in range(len(similars)):
#print(orig_data[similars[i]][movieId])
cur_sim = 1 - spatial.distance.cosine(data[userId], data[similars[i]])
if orig_data[similars[i]][movieId] != 0 and userId != similars[i]:
sum_total += cur_sim*orig_data[similars[i]][movieId]
sim_total += cur_sim
if sim_total == 0:
return 0
else:
return sum_total/sim_total
def getSimilarity(self):
similarity = []
sparsenorm = pp.normalize( self.sparsedata , axis=0)
"""INEFFIECNT WAY
dim = self.data.shape[1]
for i in range(dim):
temp = []
print(i)
for j in range(dim):
temp.append(1-spatial.distance.cosine(data[:,i],data[:,j]))
similarity.append(temp)"""
result = sparsenorm.T * sparsenorm
f = open('sim_mat.pickle', 'wb')
pickle.dump(result, f)
f.close()
return result
def loadSimMat(self):
f = open('sim_mat.pickle', 'rb')
result = pickle.load(f)
f.close()
return result
def getAverage(self):
""" dim = self.data.shape[1]
sum= np.zeros( dim)
rated= np.zeros( dim)
for user in orig_data:
for i in range(dim):
if user[i] != 0:
sum[i] += user[i]
rated[i] += 1
average = np.zeros( dim)
for i in range(dim):
if rated[i] != 0:
average[i] = sum[i] / rated[i]
<<<<<<< Updated upstream
return average """
return np.true_divide(orig_data.T.sum(1), (orig_data.T!=0).sum(1))
def getPrediction( self, userId, movieId):
dim = self.data.shape[1]
Rk = self.aver_mov[movieId]
total = 0
w_total = 0
row = self.sparsedata.getrow(userId)
k = 1
#cow = sorted(range(len(row[1])), key=lambda i: row[1][i])[-1*k:] #best k
col = self.sim_mat.getcol(movieId)
cnt = 0
for j in row.nonzero()[1]:
# print("j:", j)
if j != movieId:
total += col[j,0]
w_total += col[j,0]*(self.orig_data[userId,j]-self.aver_mov[j])
if total is 0:
return 0
#print("Rk", Rk)
#print("wtotal", w_total)
#print("total", total)
if Rk+ w_total/total > 5:
return 5
return Rk + w_total/total
# configure file path
data_path = 'ml-latest-small'
movies_filename = 'movies.csv'
ratings_filename = 'ratings.csv'
# read data
df_movies = pd.read_csv(
os.path.join(data_path, movies_filename),
usecols=['movieId', 'title'],
dtype={'movieId': 'int32', 'title': 'str'})
df_ratings = pd.read_csv(
os.path.join(data_path, ratings_filename),
usecols=['userId', 'movieId', 'rating'],
dtype={'userId': 'int32', 'movieId': 'int32', 'rating': 'double'})
#print(df_ratings.head(5))
df_rating_matrix = df_ratings.pivot(index='userId', columns='movieId', values='rating').fillna(0)
orig_data = df_rating_matrix.values
df_rating_matrix = df_rating_matrix.sub(df_rating_matrix.mean(axis=1), axis=0)
data = df_rating_matrix.values
item_count = 500
data = data[:,:item_count]
data = orig_data[:,:item_count]
#data = [[3,5,0,4],[0,1,5,0], [2,3,2,4]]
#data = np.array(data)
#orig_data = data
#print("Avg", np.true_divide(data.T.sum(1), (data.T!=0).sum(1)))
model = LSH(data, orig_data)
#print(data)
#print(data[0][0])
#print(data.shape)
#model.train(5)
count = 0
""" for i in model.buckets:
print("Table :")
print(type(i))
for j in i:
count += 1
print("-----------------------------------------------------------------bucket" +str(j))
for value in i[j]:
print( df_movies['title'][value] ) """
#print("Count:", count)
#print("Original Rating: ", orig_data[0][0])
#print(model.predict_rating(0,2))
#print(model.getPrediction(0,0))
#print("Original Rating: ", orig_data[0][1])
#print(model.getPrediction(0,1))
#print("Original Rating: ", orig_data[0][2])
#print(model.getPrediction(0,2))
#print("Original Rating: ", orig_data[0][3])
#print(model.getPrediction(0,3))
#print(model.getPrediction(1,50))
test_file = open("test_data500-3000-2.pickle", "rb")
test_data = pickle.load(test_file)
#pickle.dump(test_data, test_file)
test_file.close()
count = 0
#print(data.shape)
for index, rating in test_data.items():
data[index[0]][index[1]] = 0
def rmse(predictions, targets):
return np.sqrt(((predictions - targets) ** 2).mean())
ratings = np.array([])
predictions = np.array([])
cnt = 0
begin = time.process_time()
for index, rating in test_data.items():
#print("index:", index)
cnt+=1
predicted = model.getPrediction(int(index[0]), index[1])
ratings = np.append(ratings, rating)
predictions = np.append(predictions, predicted)
#print("preditced:", cnt, " prediction: ", predicted, " original: ", rating)
#if cnt == 5:
#print("Error:", rmse(predictions, ratings))
# cnt = 0
end = time.process_time()
print("simmat propro", (end - begin)/3000 )
print("Error:", rmse(predictions, ratings))