def train_gowalla(args):
p_str = "running " + args.dataset
print(p_str)
dataset_base_path = '../../data/Gowalla/gowalla_x0'
##gowalla
user_num = 29858
item_num = 40981
factor_num = args.embed_size
batch_size = 2048 * 512
top_k = 20
num_negative_test_val = -1 ##all
run_id = args.run_id
print(run_id)
dataset = 'gowalla'
path_save_base = './log/' + dataset + '/newloss' + run_id
if (os.path.exists(path_save_base)):
print('has results save path')
else:
os.makedirs(path_save_base)
result_file = open(path_save_base + '/results.txt',
'w+') #('./log/results_gcmc.txt','w+')
copyfile('../../external/LR_gccf/train_gowalla.py',
path_save_base + '/train_gowalla' + run_id + '.py')
path_save_model_base = './newlossModel/' + dataset + '/s' + run_id
if (os.path.exists(path_save_model_base)):
print('has model save path')
else:
os.makedirs(path_save_model_base)
training_user_set, training_item_set, training_set_count = np.load(
dataset_base_path + '/datanpy/training_set.npy', allow_pickle=True)
testing_user_set, testing_item_set, testing_set_count = np.load(
dataset_base_path + '/datanpy/testing_set.npy', allow_pickle=True)
val_user_set, val_item_set, val_set_count = np.load(dataset_base_path +
'/datanpy/val_set.npy',
allow_pickle=True)
user_rating_set_all = np.load(dataset_base_path +
'/datanpy/user_rating_set_all.npy',
allow_pickle=True).item()
u_d = readD(training_user_set, user_num)
i_d = readD(training_item_set, item_num)
d_i_train = u_d
d_j_train = i_d
sparse_u_i = readTrainSparseMatrix(training_user_set, True, u_d, i_d)
sparse_i_u = readTrainSparseMatrix(training_item_set, False, u_d, i_d)
train_dataset = data_utils.BPRData(
train_dict=training_user_set, num_item=item_num, num_ng=5, is_training=True,\
data_set_count=training_set_count,all_rating=user_rating_set_all)
train_loader = DataLoader(train_dataset,
batch_size=batch_size,
shuffle=True,
num_workers=2)
testing_dataset_loss = data_utils.BPRData(
train_dict=testing_user_set, num_item=item_num, num_ng=5, is_training=True,\
data_set_count=testing_set_count,all_rating=user_rating_set_all)
testing_loader_loss = DataLoader(testing_dataset_loss,
batch_size=batch_size,
shuffle=False,
num_workers=0)
val_dataset_loss = data_utils.BPRData(
train_dict=val_user_set, num_item=item_num, num_ng=5, is_training=True,\
data_set_count=val_set_count,all_rating=user_rating_set_all)
val_loader_loss = DataLoader(val_dataset_loss,
batch_size=batch_size,
shuffle=False,
num_workers=0)
model = BPR(user_num, item_num, factor_num, sparse_u_i, sparse_i_u,
d_i_train, d_j_train)
model = model.to('cuda')
# lr=0.005
optimizer_bpr = torch.optim.Adam(model.parameters(),
lr=args.lr) #, betas=(0.5, 0.99))
########################### TRAINING #####################################
# testing_loader_loss.dataset.ng_sample()
print('--------training processing-------')
count, best_hr = 0, 0
# epoch=350
for epoch in range(args.epoch):
model.train()
start_time = time.time()
train_loader.dataset.ng_sample()
# pdb.set_trace()
print('train data of ng_sample is end')
# elapsed_time = time.time() - start_time
# print(' time:'+str(round(elapsed_time,1)))
# start_time = time.time()
train_loss_sum = []
train_loss_sum2 = []
for user, item_i, item_j in train_loader:
user = user.cuda()
item_i = item_i.cuda()
item_j = item_j.cuda()
model.zero_grad()
prediction_i, prediction_j, loss, loss2 = model(
user, item_i, item_j)
loss.backward()
optimizer_bpr.step()
count += 1
train_loss_sum.append(loss.item())
train_loss_sum2.append(loss2.item())
# print(count)
elapsed_time = time.time() - start_time
train_loss = round(np.mean(train_loss_sum[:-1]),
4) #最后一个可能不满足一个batch,所以去掉这样loss就是一致的可以求mean了
train_loss2 = round(np.mean(train_loss_sum2[:-1]),
4) #最后一个可能不满足一个batch,所以去掉这样loss就是一致的可以求mean了
str_print_train = "epoch:" + str(epoch) + ' time:' + str(
round(elapsed_time, 1)) + '\t train loss:' + str(
train_loss) + "=" + str(train_loss2) + "+"
print('--train--', elapsed_time)
PATH_model = path_save_model_base + '/epoch' + str(epoch) + '.pt'
torch.save(model.state_dict(), PATH_model)
model.eval()
# ######test and val###########
val_loader_loss.dataset.ng_sample()
val_loss = evaluate.metrics_loss(model, val_loader_loss, batch_size)
# str_print_train+=' val loss:'+str(val_loss)
testing_loader_loss.dataset.ng_sample()
test_loss = evaluate.metrics_loss(model, testing_loader_loss,
batch_size)
print(str_print_train + ' val loss:' + str(val_loss) + ' test loss:' +
str(test_loss))
result_file.write(str_print_train + ' val loss:' + str(val_loss) +
' test loss:' + str(test_loss))
result_file.write('\n')
result_file.flush()
prediction_i = (user * item_i).sum(dim=-1)
prediction_j = (user * item_j).sum(dim=-1)
# loss=-((rediction_i-prediction_j).sigmoid())**2#self.loss(prediction_i,prediction_j)#.sum()
l2_regulization = 0.01 * (user**2 + item_i**2 + item_j**2).sum(dim=-1)
# l2_regulization = 0.01*((gcn1_users_embedding**2).sum(dim=-1).mean()+(gcn1_items_embedding**2).sum(dim=-1).mean())
loss2 = -((prediction_i - prediction_j).sigmoid().log().mean())
# loss= loss2 + l2_regulization
loss = -(
(prediction_i -
prediction_j)).sigmoid().log().mean() + l2_regulization.mean()
# pdb.set_trace()
return prediction_i, prediction_j, loss, loss2
train_dataset = data_utils.BPRData(
train_dict=training_user_set, num_item=item_num, num_ng=5, is_training=True,\
data_set_count=training_set_count,all_rating=user_rating_set_all)
train_loader = DataLoader(train_dataset,
batch_size=batch_size,
shuffle=True,
num_workers=2)
testing_dataset_loss = data_utils.BPRData(
train_dict=testing_user_set, num_item=item_num, num_ng=5, is_training=True,\
data_set_count=testing_set_count,all_rating=user_rating_set_all)
testing_loader_loss = DataLoader(testing_dataset_loss,
batch_size=batch_size,
shuffle=False,
num_workers=0)
val_dataset_loss = data_utils.BPRData(
parser.add_argument("--test_num_ng",
type=int,
default=99,
help="sample part of negative items for testing")
parser.add_argument("--out", default=True, help="save model or not")
parser.add_argument("--gpu", type=str, default="0", help="gpu card ID")
args = parser.parse_args()
os.environ["CUDA_VISIBLE_DEVICES"] = args.gpu
cudnn.benchmark = True
############################## PREPARE DATASET ##########################
train_data, test_data, user_num, item_num, train_mat = data_utils.load_all()
# construct the train and test datasets
train_dataset = data_utils.BPRData(train_data, item_num, train_mat,
args.num_ng, True)
test_dataset = data_utils.BPRData(test_data, item_num, train_mat, 0, False)
train_loader = data.DataLoader(train_dataset,
batch_size=args.batch_size,
shuffle=True,
num_workers=16)
test_loader = data.DataLoader(test_dataset,
batch_size=args.test_num_ng + 1,
shuffle=False,
num_workers=0)
########################### CREATE MODEL #################################
model = model.BPR(user_num, item_num, args.factor_num)
model.cuda()
optimizer = optim.SGD(model.parameters(), lr=args.lr, weight_decay=args.lamda)
default=50, # the new dataset
help="sample part of negative items for testing")
parser.add_argument("--out", default=True, help="save model or not")
parser.add_argument("--gpu", type=str, default="0", help="gpu card ID")
args = parser.parse_args()
os.environ["CUDA_VISIBLE_DEVICES"] = args.gpu
cudnn.benchmark = True
############################## PREPARE DATASET ##########################
train_data, test_data, train_mat, user_num, item_num = data_utils.load_all()
# construct the train and test datasets
train_dataset = data_utils.BPRData(train_data,
user_num,
item_num,
train_mat,
num_ng=args.num_ng,
is_training=True)
test_dataset = data_utils.BPRData(test_data,
user_num,
item_num,
num_ng=0,
is_training=False)
train_loader = data.DataLoader(train_dataset,
batch_size=args.batch_size,
shuffle=True,
num_workers=20)
# test_loader = data.DataLoader(test_dataset,
# batch_size=args.test_num_ng+1, shuffle=False, num_workers=0)
test_loader = data.DataLoader(test_dataset, batch_size=1, shuffle=False)