def process(person_list):
file_count = 0
for tmp_i in range(0, all_person):
for tmp_j in range(0, all_person):
flag = len(person_list[tmp_i]) <= len(person_list[tmp_j])
cos_sum = 0
sim = 0
if len_list[tmp_i] != 0 and len_list[tmp_j] != 0:
if flag:
for key in person_list[tmp_i].keys():
if key in person_list[tmp_j].keys():
cos_sum += person_list[tmp_i][key] * person_list[
tmp_j][key]
else:
for key in person_list[tmp_j].keys():
if key in person_list[tmp_i].keys():
cos_sum += person_list[tmp_i][key] * person_list[
tmp_j][key]
sim = cos_sum / (len_list[tmp_i] * len_list[tmp_j])
sim_list.append(sim)
if tmp_i % 100 == 99:
files.writepkl('data/train_res%d.pkl' % file_count, sim_list)
file_count += 1
sim_list.clear()
print((tmp_i, tmp_j, sim)),
files.writepkl('data/train_res%d.pkl' % file_count, sim_list)
print("all files finishi")
def loadtrain_xy():
#loadtrain()
train = files.readpkl("pro_data/train.pkl")
train_X, train_Y = [], []
for i in range(len(train)):
train_X.append(train[i][:, :-1])
train_Y.append(train[i][:, -1])
files.writepkl('pro_data/train_X.pkl', train_X)
#files.writetxt('pro_data/train_X.txt', train_X)
files.writepkl('pro_data/train_Y.pkl', train_Y)
def load_rmsedata():
train = files.readpkl("pro_data/train_X.pkl")
each_label_num = np.array([len(data) for data in train])
train_count = each_label_num * 0.7
train_count = train_count.astype(int) # 训练集每层总量
rmse_train, rmse_test = [], []
for i in range(101):
rmse_train.append(train[i][:train_count[i]])
rmse_test.append(train[i][train_count[i]:])
files.writepkl("rmse_data/rmse_train.pkl", rmse_train)
files.writepkl("rmse_data/rmse_test.pkl", rmse_test)
def loadtest():
data = files.readpkl("pro_data/test_stat.pkl")
for i in range(len(data)):
if i % 500 == 0:
print("i:", i)
user_id = np.array([data[i][0]] * data[i][1]).reshape(-1, 1)
item_id = np.array(list(data[i][2].keys()), dtype=int).reshape(-1, 1)
if i == 0:
matrix = np.concatenate((user_id, item_id), axis=1)
else:
m = np.concatenate((user_id, item_id), axis=1)
matrix = np.vstack((matrix, m))
#files.writetxt('pro_data/test.txt', matrix)
files.writepkl('pro_data/test.pkl', matrix)
def get_scores():
train_X = files.readpkl("pro_data/train_X.pkl")
each_label_num = np.array([len(data) for data in train_X])
prior_pr = each_label_num / np.sum(each_label_num) # 先验概率
ave = np.array([np.mean(train_X[i], axis=0)
for i in range(len(train_X))]) # 均值
std = np.array([np.std(train_X[i], axis=0)
for i in range(len(train_X))]) # 标准差
test = files.readpkl("pro_data/test.pkl") # 二维矩阵
scores = []
for t in test:
scores.append(NaiveBayes_Classifier(ave, std, t, prior_pr))
scores = np.array(scores)
files.writepkl("scores.pkl", scores)
def get_similarity(item_cnt):
cnt = 0
for ids in range(int(maxid/20)+1):
filename = "new/sim_matrix/"+str(ids)+".pkl"
matrix_file = "new/item_matrix/"+str(ids)+".pkl"
try:
matrix = f.readpkl(matrix_file)
sim_matrix = f.readpkl(filename)
for pair in matrix:
item1 = pair[0]
item2 = pair[1]
if item1 not in sim_matrix:
sim_matrix[item1] = {}
sim_matrix[item1][item2] = matrix[pair]/(item_cnt[item1]*item_cnt[item2])
f.writepkl(filename,sim_matrix)
cnt = cnt+1
print ("finish",cnt)
except FileNotFoundError:
continue
def get_item_item_matrix(item_record):
cnt = 0
for ids in range(1,user_max,10):
filename = "data/item_matrix2/"+str(int(ids/10))+".pkl"
#读取当前块存储的同现矩阵
try:
item_matrix = f.readpkl(filename)
for user in range(ids,ids+10):
for item1 in item_record[user]:#遍历用户评分的商品,组成商品对(item1,item2)
for item2 in item_record[user]:
item_pair = (item1,item2)
if item_pair not in item_matrix:
item_matrix[item_pair] = 0 #初始化字典条目
item_matrix[item_pair] = item_matrix[item_pair]+1 #同现矩阵计数+1
f.writepkl(filename,item_matrix) #保存当前块
cnt = cnt+1
print("finish",cnt)
except EOFError:
continue
except FileNotFoundError:
continue
def loadtrain():
data = files.readpkl("pro_data/train_stat.pkl")
for i in range(len(data)):
if i % 500 == 0:
print("i:", i)
user_id = np.array([data[i][0]] * data[i][1]).reshape(-1, 1)
item_id = np.array(list(data[i][2].keys()), dtype=int).reshape(-1, 1)
score = np.array(list(data[i][2].values()), dtype=int).reshape(-1, 1)
if i == 0:
matrix = np.concatenate((user_id, item_id, score), axis=1)
else:
m = np.concatenate((user_id, item_id, score), axis=1)
matrix = np.vstack((matrix, m))
_score = matrix[:, 2]
train = []
for i in range(101):
index = np.argwhere(_score == i).reshape(-1)
train.append(matrix[index])
#files.writetxt('pro_data/train.txt', train)
files.writepkl('pro_data/train.pkl', train)
def run(data,
fea_num,
method,
noise=None): # method=0 -> ReliefF || method=1 -> MRMR
sampling_times = 50 # 抽样次数
k_samples = 10 # 最近邻样本个数
k_cross = 10 # k折交叉验证折数
accuracy, auc = np.zeros((len(delta), 4)), np.zeros((len(delta), 4))
for i in range(len(fea_num)):
if method == 0:
features = ReliefF(data, sampling_times, fea_num[i], k_samples)
elif method == 1:
features = MRMR(data, fea_num[i])
_data = np.concatenate((data[:, features], data[:, -1].reshape(-1, 1)),
axis=1) # 特征选择后的样本
# k折交叉验证运行代码(未分层处理)
for j in range(k_cross):
np.random.shuffle(_data)
train, test = _data[int(len(_data) / k_cross
):], _data[:int(len(_data) / k_cross)]
clf = Classifier(train, test)
_knn, _nb, _svm, _rf = clf.knn(), clf.NaiveBayes(), clf.SVM(
), clf.RandomForest()
accuracy[i][0] += _knn['score']
accuracy[i][1] += _nb['score']
accuracy[i][2] += _svm['score']
accuracy[i][3] += _rf['score']
auc[i][0] += _knn['auc']
auc[i][1] += _nb['auc']
auc[i][2] += _svm['auc']
auc[i][3] += _rf['auc']
accuracy, auc = accuracy / k_cross, auc / k_cross
if noise == None:
if method == 0:
f.writepkl("result/acc_ReliefF.pkl", accuracy)
f.writepkl("result/auc_ReliefF.pkl", auc)
elif method == 1:
f.writepkl("result/acc_MRMR.pkl", accuracy)
f.writepkl("result/auc_MRMR.pkl", auc)
elif noise != None:
if method == 0:
f.writepkl("result/acc_ReliefF_noise" + str(noise) + ".pkl",
accuracy)
f.writepkl("result/auc_ReliefF_noise" + str(noise) + ".pkl", auc)
elif method == 1:
f.writepkl("result/acc_MRMR_noise" + str(noise) + ".pkl", accuracy)
f.writepkl("result/auc_MRMR_noise" + str(noise) + ".pkl", auc)
data = []
with codecs.open(filename, encoding="utf-8") as f:
_data = f.readlines()
for line in _data:
line = line.rstrip('\r\n')
if '|' in line:
data.append([int(item) for item in line.split('|')])
data[-1].append({})
else: # 使用时要把数据集中的空行去掉,不然报错
data[-1][2][line] = -1
return data
if __name__ == "__main__":
data1 = stat_loadtrain('data/train.txt')
files.writepkl('pro_data/train_stat.pkl', data1)
data2 = stat_loadtest('data/test.txt')
files.writepkl('pro_data/test_stat.pkl', data2)
'''
#data = files.readpkl('data/test_stat.pkl')
#data = files.readpkl('data/train_stat.pkl')
print(len(data), data[-1][0])
items, scores = [], []
for e in data:
items += list(e[2].keys())
scores += list(e[2].values())
items = list(set(items))
items.sort()
for i in range(0, len(test_stat)):
for key in test_stat[i][2].keys():
scored_people, scored_sim = find_relative_people(i, key)
if len(scored_people) == 0:
test_stat[i][2][key] = 0
continue
sim_sum = 0
for j in range(0, len(scored_sim)):
sim_sum += scored_sim[j]
# print(coefficience)
# print('sim sum:%f' % sim_sum)
sum = 0
for j in range(0, len(scored_people)):
sum += train_stat[scored_people[j]][2][key] * scored_sim[j]
# print('item sum:%f' % sum)
if sim_sum != 0:
sum = sum / sim_sum
# print('modified sum:%f'%sum)
test_stat[i][2][key] = round(sum, 2)
# break
# print(test_stat[i])
if i % 100 == 99:
print("Finish %d*100 users" % counter)
files.writepkl('data/rmse_stat%d.pkl' % counter,
test_stat[counter * 100:counter * 100 + 100])
files.writepkl('data/rmse_origin%d.pkl' % counter,
frag[counter * 100:counter * 100 + 100])
counter += 1
files.writepkl('data/rmse_stat.pkl', test_stat)
files.writepkl('data/rmse_origin.pkl', frag)
if __name__ == "__main__":
person_list = initial(train_stat)
counter = 0
for i in range(0, len(test_stat)):
for key in test_stat[i][2].keys():
scored_people, scored_sim = find_relative_people(i, key)
if len(scored_people) == 0:
test_stat[i][2][key] = 0
continue
sim_sum = 0
for j in range(0, len(scored_sim)):
sim_sum += scored_sim[j]
# print(coefficience)
# print('sim sum:%f' % sim_sum)
sum = 0
for j in range(0, len(scored_people)):
sum += train_stat[scored_people[j]][2][key] * scored_sim[j]
# print('item sum:%f' % sum)
if sim_sum != 0:
sum = sum / sim_sum
# print('modified sum:%f'%sum)
test_stat[i][2][key] = round(sum, 2)
# break
# print(test_stat[i])
if i % 100 == 99:
print("Finish %d*100 users" % counter)
counter += 1
files.writepkl('data/test_res.pkl', test_stat)
def ini_item_item():
for ids in range(1,user_max,10):
filename = "data/item_matrix2/" + str(int(ids / 10)) + ".pkl"
item_matrix = {}
f.writepkl(filename,item_matrix)
print("ini ok")
def ini_sim():
for ids in range(int(maxid/20)+1):
filename = "new/sim_matrix/"+str(ids)+".pkl"
sim_matrix = {}
f.writepkl(filename,sim_matrix)
for user in item_record:
for item_predict in item_record[user]:
predict_score = 0
filename = "data/sim_matrix/"+str(int(int(item_predict)/10))+".pkl" #读取物品相似度矩阵
sim_matrix = f.readpkl(filename)
try:
for item in user_item_record[user]:
if item in sim_matrix[item_predict]:# 计算评分
predict_score = predict_score+user_item_record[user][item]
*sim_matrix[item_predict][item]
item_record[user][item_predict] = predict_score #存储对应的预测评分
except KeyError:
continue
cnt = cnt+1
print ("finish",cnt)
f.writepkl("new/result.pkl",item_record)
def ini_item_item():
for ids in range(1,user_max,10):
filename = "data/item_matrix2/" + str(int(ids / 10)) + ".pkl"
item_matrix = {}
f.writepkl(filename,item_matrix)
print("ini ok")
if __name__ == '__main__':
train_record = f.readpkl("data/item_record.pkl")
test_record = f.readpkl("data/test_record.pkl")
item_cnt = f.readpkl("data/item_cnt.pkl")
item_dict = {}
predict2(train_record=train_record,test_record=test_record,item_cnt=item_cnt,item_dict= item_dict)
print ("ok")