from __future__ import print_function, absolute_import, division import os import random import sys import time from collections import OrderedDict import paddle.fluid as fluid from config import parse_args from network import DCN import utils """ train DCN model """ def train(args): """train and save DCN model :param args: hyperparams of model :return: """ # ce if args.enable_ce: SEED = 102 fluid.default_main_program().random_seed = SEED fluid.default_startup_program().random_seed = SEED cat_feat_dims_dict = OrderedDict() for line in open(args.cat_feat_num): spls = line.strip().split() assert len(spls) == 2 cat_feat_dims_dict[spls[0]] = int(spls[1]) dcn_model = DCN(args.cross_num, args.dnn_hidden_units, args.l2_reg_cross, args.use_bn, args.clip_by_norm, cat_feat_dims_dict, args.is_sparse) dcn_model.build_network() dcn_model.backward(args.lr) # config dataset dataset = fluid.DatasetFactory().create_dataset() dataset.set_use_var(dcn_model.data_list) pipe_command = 'python reader.py {}'.format(args.vocab_dir) dataset.set_pipe_command(pipe_command) dataset.set_batch_size(args.batch_size) dataset.set_thread(args.num_thread) train_filelist = [ os.path.join(args.train_data_dir, fname) for fname in next(os.walk(args.train_data_dir))[2] ] dataset.set_filelist(train_filelist) num_epoch = args.num_epoch if args.steps: epoch = args.steps * args.batch_size / 41000000 full_epoch = int(epoch // 1) last_epoch = epoch % 1 train_filelists = [train_filelist for _ in range(full_epoch)] + [ random.sample(train_filelist, int( len(train_filelist) * last_epoch)) ] num_epoch = full_epoch + 1 print("train epoch: {}".format(num_epoch)) # Executor exe = fluid.Executor(fluid.CPUPlace()) exe.run(fluid.default_startup_program()) for epoch_id in range(num_epoch): start = time.time() sys.stderr.write('\nepoch%d start ...\n' % (epoch_id + 1)) dataset.set_filelist(train_filelists[epoch_id]) exe.train_from_dataset( program=fluid.default_main_program(), dataset=dataset, fetch_list=[ dcn_model.loss, dcn_model.avg_logloss, dcn_model.auc_var ], fetch_info=['total_loss', 'avg_logloss', 'auc'], debug=False, print_period=args.print_steps) model_dir = os.path.join(args.model_output_dir, 'epoch_' + str(epoch_id + 1)) sys.stderr.write('epoch%d is finished and takes %f s\n' % ( (epoch_id + 1), time.time() - start)) fluid.io.save_persistables( executor=exe, dirname=model_dir, main_program=fluid.default_main_program()) if __name__ == '__main__': args = parse_args() print(args) utils.check_version() train(args)