# Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserved # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import os import numpy as np from optparse import OptionParser from py_paddle import swig_paddle, DataProviderConverter from paddle.trainer.PyDataProvider2 import integer_value_sequence from paddle.trainer.config_parser import parse_config """ Usage: run following command to show help message. python predict.py -h """ UNK_IDX = 0 class Prediction(): def __init__(self, train_conf, dict_file, model_dir, label_file, predicate_dict_file): """ train_conf: trainer configure. dict_file: word dictionary file name. model_dir: directory of model. """ self.dict = {} self.labels = {} self.predicate_dict={} self.labels_reverse = {} self.load_dict_label(dict_file, label_file, predicate_dict_file) len_dict = len(self.dict) len_label = len(self.labels) len_pred = len(self.predicate_dict) conf = parse_config( train_conf, 'dict_len=' + str(len_dict) + ',label_len=' + str(len_label) + ',pred_len=' + str(len_pred) + ',is_predict=True') self.network = swig_paddle.GradientMachine.createFromConfigProto( conf.model_config) self.network.loadParameters(model_dir) slots = [ integer_value_sequence(len_dict), integer_value_sequence(len_dict), integer_value_sequence(len_dict), integer_value_sequence(len_dict), integer_value_sequence(len_dict), integer_value_sequence(len_dict), integer_value_sequence(len_pred), integer_value_sequence(2) ] self.converter = DataProviderConverter(slots) def load_dict_label(self, dict_file, label_file, predicate_dict_file): """ Load dictionary from self.dict_file. """ for line_count, line in enumerate(open(dict_file, 'r')): self.dict[line.strip()] = line_count for line_count, line in enumerate(open(label_file, 'r')): self.labels[line.strip()] = line_count self.labels_reverse[line_count] = line.strip() for line_count, line in enumerate(open(predicate_dict_file, 'r')): self.predicate_dict[line.strip()] = line_count def get_data(self, data_file): """ Get input data of paddle format. """ with open(data_file, 'r') as fdata: for line in fdata: sentence, predicate, ctx_n2, ctx_n1, ctx_0, ctx_p1, ctx_p2, mark, label = line.strip( ).split('\t') words = sentence.split() sen_len = len(words) word_slot = [self.dict.get(w, UNK_IDX) for w in words] predicate_slot = [self.predicate_dict.get(predicate, UNK_IDX)] * sen_len ctx_n2_slot = [self.dict.get(ctx_n2, UNK_IDX)] * sen_len ctx_n1_slot = [self.dict.get(ctx_n1, UNK_IDX)] * sen_len ctx_0_slot = [self.dict.get(ctx_0, UNK_IDX)] * sen_len ctx_p1_slot = [self.dict.get(ctx_p1, UNK_IDX)] * sen_len ctx_p2_slot = [self.dict.get(ctx_p2, UNK_IDX)] * sen_len marks = mark.split() mark_slot = [int(w) for w in marks] yield word_slot, ctx_n2_slot, ctx_n1_slot, \ ctx_0_slot, ctx_p1_slot, ctx_p2_slot, predicate_slot, mark_slot def predict(self, data_file, output_file): """ data_file: file name of input data. """ input = self.converter(self.get_data(data_file)) output = self.network.forwardTest(input) lab = output[0]["id"].tolist() with open(data_file, 'r') as fin, open(output_file, 'w') as fout: index = 0 for line in fin: sen = line.split('\t')[0] len_sen = len(sen.split()) line_labels = lab[index:index + len_sen] index += len_sen fout.write(sen + '\t' + ' '.join( [self.labels_reverse[i] for i in line_labels]) + '\n') def option_parser(): usage = ("python predict.py -c config -w model_dir " "-d word dictionary -l label_file -i input_file -p pred_dict_file") parser = OptionParser(usage="usage: %s [options]" % usage) parser.add_option( "-c", "--tconf", action="store", dest="train_conf", help="network config") parser.add_option( "-d", "--dict", action="store", dest="dict_file", help="dictionary file") parser.add_option( "-l", "--label", action="store", dest="label_file", default=None, help="label file") parser.add_option( "-p", "--predict_dict_file", action="store", dest="predict_dict_file", default=None, help="predict_dict_file") parser.add_option( "-i", "--data", action="store", dest="data_file", help="data file to predict") parser.add_option( "-w", "--model", action="store", dest="model_path", default=None, help="model path") parser.add_option( "-o", "--output_file", action="store", dest="output_file", default=None, help="output file") return parser.parse_args() def main(): options, args = option_parser() train_conf = options.train_conf data_file = options.data_file dict_file = options.dict_file model_path = options.model_path label_file = options.label_file predict_dict_file = options.predict_dict_file output_file = options.output_file swig_paddle.initPaddle("--use_gpu=0") predict = Prediction(train_conf, dict_file, model_path, label_file, predict_dict_file) predict.predict(data_file,output_file) if __name__ == '__main__': main()