import time import os import paddle.fluid as fluid import numpy as np import logging import argparse import preprocess word_to_id = dict() id_to_word = dict() logging.basicConfig(format='%(asctime)s - %(levelname)s - %(message)s') logger = logging.getLogger("fluid") logger.setLevel(logging.INFO) def parse_args(): parser = argparse.ArgumentParser( description="PaddlePaddle Word2vec infer example") parser.add_argument( '--dict_path', type=str, default='./data/1-billion_dict', help="The path of training dataset") parser.add_argument( '--model_output_dir', type=str, default='models', help="The path for model to store (with infer_once please set specify dir to models) (default: models)" ) parser.add_argument( '--rank_num', type=int, default=4, help="find rank_num-nearest result for test (default: 4)") parser.add_argument( '--infer_once', action='store_true', required=False, default=False, help='if using infer_once, (default: False)') parser.add_argument( '--infer_during_train', action='store_true', required=False, default=True, help='if using infer_during_train, (default: True)') parser.add_argument( '--test_acc', action='store_true', required=False, default=False, help='if using test_files , (default: False)') parser.add_argument( '--test_files_dir', type=str, default='test', help="The path for test_files) (default: test)") parser.add_argument( '--test_batch_size', type=int, default=1000, help="test used batch size (default: 1000)") return parser.parse_args() def BuildWord_IdMap(dict_path): with open(dict_path + "_word_to_id_", 'r') as f: for line in f: word_to_id[line.split(' ')[0]] = int(line.split(' ')[1]) id_to_word[int(line.split(' ')[1])] = line.split(' ')[0] def inference_prog(): # just to create program for test fluid.layers.create_parameter( shape=[1, 1], dtype='float32', name="embeding") def build_test_case_from_file(args, emb): logger.info("test files dir: {}".format(args.test_files_dir)) current_list = os.listdir(args.test_files_dir) logger.info("test files list: {}".format(current_list)) test_cases = list() test_labels = list() test_case_descs = list() exclude_lists = list() for file_dir in current_list: with open(args.test_files_dir + "/" + file_dir, 'r') as f: for line in f: if ':' in line: logger.info("{}".format(line)) pass else: line = preprocess.strip_lines(line, word_to_id) test_case = emb[word_to_id[line.split()[0]]] - emb[ word_to_id[line.split()[1]]] + emb[word_to_id[ line.split()[2]]] test_case_desc = line.split()[0] + " - " + line.split()[ 1] + " + " + line.split()[2] + " = " + line.split()[3] test_cases.append(test_case) test_case_descs.append(test_case_desc) test_labels.append(word_to_id[line.split()[3]]) exclude_lists.append([ word_to_id[line.split()[0]], word_to_id[line.split()[1]], word_to_id[line.split()[2]] ]) test_cases = norm(np.array(test_cases)) return test_cases, test_case_descs, test_labels, exclude_lists def build_small_test_case(emb): emb1 = emb[word_to_id['boy']] - emb[word_to_id['girl']] + emb[word_to_id[ 'aunt']] desc1 = "boy - girl + aunt = uncle" label1 = word_to_id["uncle"] emb2 = emb[word_to_id['brother']] - emb[word_to_id['sister']] + emb[ word_to_id['sisters']] desc2 = "brother - sister + sisters = brothers" label2 = word_to_id["brothers"] emb3 = emb[word_to_id['king']] - emb[word_to_id['queen']] + emb[word_to_id[ 'woman']] desc3 = "king - queen + woman = man" label3 = word_to_id["man"] emb4 = emb[word_to_id['reluctant']] - emb[word_to_id['reluctantly']] + emb[ word_to_id['slowly']] desc4 = "reluctant - reluctantly + slowly = slow" label4 = word_to_id["slow"] emb5 = emb[word_to_id['old']] - emb[word_to_id['older']] + emb[word_to_id[ 'deeper']] desc5 = "old - older + deeper = deep" label5 = word_to_id["deep"] test_cases = [emb1, emb2, emb3, emb4, emb5] test_case_desc = [desc1, desc2, desc3, desc4, desc5] test_labels = [label1, label2, label3, label4, label5] return norm(np.array(test_cases)), test_case_desc, test_labels def build_test_case(args, emb): if args.test_acc: return build_test_case_from_file(args, emb) else: return build_small_test_case(emb) def norm(x): y = np.linalg.norm(x, axis=1, keepdims=True) return x / y def inference_test(scope, model_dir, args): BuildWord_IdMap(args.dict_path) logger.info("model_dir is: {}".format(model_dir + "/")) emb = np.array(scope.find_var("embeding").get_tensor()) x = norm(emb) logger.info("inference result: ====================") test_cases = None test_case_desc = list() test_labels = list() exclude_lists = list() if args.test_acc: test_cases, test_case_desc, test_labels, exclude_lists = build_test_case( args, emb) else: test_cases, test_case_desc, test_labels = build_test_case(args, emb) exclude_lists = [[-1]] accual_rank = 1 if args.test_acc else args.rank_num correct_num = 0 cosine_similarity_matrix = np.dot(test_cases, x.T) results = topKs(accual_rank, cosine_similarity_matrix, exclude_lists, args.test_acc) for i in range(len(test_labels)): logger.info("Test result for {}".format(test_case_desc[i])) result = results[i] for j in range(accual_rank): if result[j][1] == test_labels[ i]: # if the nearest word is what we want correct_num += 1 logger.info("{} nearest is {}, rate is {}".format(j, id_to_word[ result[j][1]], result[j][0])) logger.info("Test acc is: {}, there are {} / {}".format(correct_num / len( test_labels), correct_num, len(test_labels))) def topK(k, cosine_similarity_list, exclude_list, is_acc=False): if k == 1 and is_acc: # accelerate acc calculate max = cosine_similarity_list[0] id = 0 for i in range(len(cosine_similarity_list)): if cosine_similarity_list[i] >= max and (i not in exclude_list): max = cosine_similarity_list[i] id = i else: pass return [[max, id]] else: result = list() result_index = np.argpartition(cosine_similarity_list, -k)[-k:] for index in result_index: result.append([cosine_similarity_list[index], index]) result.sort(reverse=True) return result def topKs(k, cosine_similarity_matrix, exclude_lists, is_acc=False): results = list() result_queues = list() correct_num = 0 for i in range(cosine_similarity_matrix.shape[0]): tmp_pq = None if is_acc: tmp_pq = topK(k, cosine_similarity_matrix[i], exclude_lists[i], is_acc) else: tmp_pq = topK(k, cosine_similarity_matrix[i], exclude_lists[0], is_acc) result_queues.append(tmp_pq) return result_queues def infer_during_train(args): model_file_list = list() exe = fluid.Executor(fluid.CPUPlace()) Scope = fluid.Scope() inference_prog() solved_new = True while True: time.sleep(60) current_list = os.listdir(args.model_output_dir) # logger.info("current_list is : {}".format(current_list)) # logger.info("model_file_list is : {}".format(model_file_list)) if set(model_file_list) == set(current_list): if solved_new: solved_new = False logger.info("No New models created") pass else: solved_new = True increment_models = list() for f in current_list: if f not in model_file_list: increment_models.append(f) logger.info("increment_models is : {}".format(increment_models)) for model in increment_models: model_dir = args.model_output_dir + "/" + model if os.path.exists(model_dir + "/_success"): logger.info("using models from " + model_dir) with fluid.scope_guard(Scope): fluid.io.load_persistables( executor=exe, dirname=model_dir + "/") inference_test(Scope, model_dir, args) model_file_list = current_list def infer_once(args): # check models file has already been finished if os.path.exists(args.model_output_dir + "/_success"): logger.info("using models from " + args.model_output_dir) exe = fluid.Executor(fluid.CPUPlace()) Scope = fluid.Scope() inference_prog() with fluid.scope_guard(Scope): fluid.io.load_persistables( executor=exe, dirname=args.model_output_dir + "/") inference_test(Scope, args.model_output_dir, args) else: logger.info("Wrong Directory or save model failed!") if __name__ == '__main__': args = parse_args() # while setting infer_once please specify the dir to models file with --model_output_dir if args.infer_once: infer_once(args) elif args.infer_during_train: infer_during_train(args) else: pass