コード例 #1
0
ファイル: train.py プロジェクト: SerenaKhoo/Match-LSTM
def train(config_path):
    logger.info('------------MODEL TRAIN--------------')
    logger.info('loading config file...')
    global_config = read_config(config_path)

    # set random seed
    seed = global_config['global']['random_seed']
    torch.manual_seed(seed)

    enable_cuda = global_config['train']['enable_cuda']
    device = torch.device("cuda" if enable_cuda else "cpu")
    if torch.cuda.is_available() and not enable_cuda:
        logger.warning("CUDA is avaliable, you can enable CUDA in config file")
    elif not torch.cuda.is_available() and enable_cuda:
        raise ValueError("CUDA is not abaliable, please unable CUDA in config file")

    logger.info('reading squad dataset...')
    dataset = SquadDataset(global_config)

    logger.info('constructing model...')
    model_choose = global_config['global']['model']
    dataset_h5_path = global_config['data']['dataset_h5']
    if model_choose == 'base':
        model_config = read_config('config/base_model.yaml')
        model = BaseModel(dataset_h5_path,
                          model_config)
    elif model_choose == 'match-lstm':
        model = MatchLSTM(dataset_h5_path)
    elif model_choose == 'match-lstm+':
        model = MatchLSTMPlus(dataset_h5_path)
    elif model_choose == 'r-net':
        model = RNet(dataset_h5_path)
    elif model_choose == 'm-reader':
        model = MReader(dataset_h5_path)
    else:
        raise ValueError('model "%s" in config file not recoginized' % model_choose)

    model = model.to(device)
    criterion = MyNLLLoss()

    # optimizer
    optimizer_choose = global_config['train']['optimizer']
    optimizer_lr = global_config['train']['learning_rate']
    optimizer_param = filter(lambda p: p.requires_grad, model.parameters())

    if optimizer_choose == 'adamax':
        optimizer = optim.Adamax(optimizer_param)
    elif optimizer_choose == 'adadelta':
        optimizer = optim.Adadelta(optimizer_param)
    elif optimizer_choose == 'adam':
        optimizer = optim.Adam(optimizer_param)
    elif optimizer_choose == 'sgd':
        optimizer = optim.SGD(optimizer_param,
                              lr=optimizer_lr)
    else:
        raise ValueError('optimizer "%s" in config file not recoginized' % optimizer_choose)

    # check if exist model weight
    weight_path = global_config['data']['model_path']
    if os.path.exists(weight_path):
        logger.info('loading existing weight...')
        weight = torch.load(weight_path, map_location=lambda storage, loc: storage)
        if enable_cuda:
            weight = torch.load(weight_path, map_location=lambda storage, loc: storage.cuda())
        # weight = pop_dict_keys(weight, ['pointer', 'init_ptr_hidden'])  # partial initial weight
        model.load_state_dict(weight, strict=False)

    # training arguments
    logger.info('start training...')
    train_batch_size = global_config['train']['batch_size']
    valid_batch_size = global_config['train']['valid_batch_size']

    num_workers = global_config['global']['num_data_workers']
    batch_train_data = dataset.get_dataloader_train(train_batch_size, num_workers)
    batch_dev_data = dataset.get_dataloader_dev(valid_batch_size, num_workers)

    clip_grad_max = global_config['train']['clip_grad_norm']

    best_avg = 0.
    # every epoch
    for epoch in range(global_config['train']['epoch']):
        # train
        model.train()  # set training = True, make sure right dropout
        sum_loss = train_on_model(model=model,
                                  criterion=criterion,
                                  optimizer=optimizer,
                                  batch_data=batch_train_data,
                                  epoch=epoch,
                                  clip_grad_max=clip_grad_max,
                                  device=device)
        logger.info('epoch=%d, sum_loss=%.5f' % (epoch, sum_loss))

        # evaluate
        with torch.no_grad():
            model.eval()  # let training = False, make sure right dropout
            valid_score_em, valid_score_f1, valid_loss = eval_on_model(model=model,
                                                                       criterion=criterion,
                                                                       batch_data=batch_dev_data,
                                                                       epoch=epoch,
                                                                       device=device)
            valid_avg = (valid_score_em + valid_score_f1) / 2
        logger.info("epoch=%d, ave_score_em=%.2f, ave_score_f1=%.2f, sum_loss=%.5f" %
                    (epoch, valid_score_em, valid_score_f1, valid_loss))

        # save model when best avg score
        if valid_avg > best_avg:
            save_model(model,
                       epoch=epoch,
                       model_weight_path=global_config['data']['model_path'],
                       checkpoint_path=global_config['data']['checkpoint_path'])
            logger.info("saving model weight on epoch=%d" % epoch)
            best_avg = valid_avg

    logger.info('finished.')
コード例 #2
0
def train(config_path):
    logger.info('------------MODEL TRAIN--------------')
    logger.info('loading config file...')
    global_config = read_config(config_path)

    # set random seed
    seed = global_config['global']['random_seed']
    torch.manual_seed(seed)

    #set default gpu
    os.environ["CUDA_VISIBLE_DEVICES"] = str(global_config['train']["gpu_id"])

    enable_cuda = global_config['train']['enable_cuda']
    device = torch.device("cuda" if enable_cuda else "cpu")
    if torch.cuda.is_available() and not enable_cuda:
        logger.warning("CUDA is avaliable, you can enable CUDA in config file")
    elif not torch.cuda.is_available() and enable_cuda:
        raise ValueError(
            "CUDA is not abaliable, please unable CUDA in config file")

    logger.info('reading squad dataset...')
    dataset = SquadDataset(global_config)

    logger.info('constructing model...')
    model_choose = global_config['global']['model']
    dataset_h5_path = global_config['data']['dataset_h5']
    if model_choose == 'base':
        model_config = read_config('config/base_model.yaml')
        model = BaseModel(dataset_h5_path, model_config)
    elif model_choose == 'match-lstm':
        model = MatchLSTM(dataset_h5_path)
    elif model_choose == 'match-lstm+':
        model = MatchLSTMPlus(dataset_h5_path,
                              global_config['preprocess']['use_domain_tag'])
    elif model_choose == 'r-net':
        model = RNet(dataset_h5_path)
    elif model_choose == 'm-reader':
        model = MReader(dataset_h5_path)
    else:
        raise ValueError('model "%s" in config file not recoginized' %
                         model_choose)

    model = model.to(device)
    criterion = MyNLLLoss()

    # optimizer
    optimizer_choose = global_config['train']['optimizer']
    optimizer_lr = global_config['train']['learning_rate']
    optimizer_param = filter(lambda p: p.requires_grad, model.parameters())

    if optimizer_choose == 'adamax':
        optimizer = optim.Adamax(optimizer_param)
    elif optimizer_choose == 'adadelta':
        optimizer = optim.Adadelta(optimizer_param)
    elif optimizer_choose == 'adam':
        optimizer = optim.Adam(optimizer_param)
    elif optimizer_choose == 'sgd':
        optimizer = optim.SGD(optimizer_param, lr=optimizer_lr)
    else:
        raise ValueError('optimizer "%s" in config file not recoginized' %
                         optimizer_choose)

    # check if exist model weight
    weight_path = global_config['data']['model_path']
    if os.path.exists(weight_path):
        logger.info('loading existing weight...')
        weight = torch.load(weight_path,
                            map_location=lambda storage, loc: storage)
        if enable_cuda:
            weight = torch.load(
                weight_path, map_location=lambda storage, loc: storage.cuda())
        # weight = pop_dict_keys(weight, ['pointer', 'init_ptr_hidden'])  # partial initial weight
        model.load_state_dict(weight, strict=False)

    # training arguments
    logger.info('start training...')
    train_batch_size = global_config['train']['batch_size']
    valid_batch_size = global_config['train']['valid_batch_size']

    num_workers = global_config['global']['num_data_workers']
    batch_train_data = dataset.get_dataloader_train(train_batch_size,
                                                    num_workers)
    batch_dev_data = dataset.get_dataloader_dev(valid_batch_size, num_workers)

    clip_grad_max = global_config['train']['clip_grad_norm']

    best_avg = 0.
    # every epoch
    for epoch in range(global_config['train']['epoch']):
        # train
        model.train()  # set training = True, make sure right dropout
        sum_loss = train_on_model(model=model,
                                  criterion=criterion,
                                  optimizer=optimizer,
                                  batch_data=batch_train_data,
                                  epoch=epoch,
                                  clip_grad_max=clip_grad_max,
                                  device=device)
        logger.info('epoch=%d, sum_loss=%.5f' % (epoch, sum_loss))

        # evaluate
        with torch.no_grad():
            model.eval()  # let training = False, make sure right dropout
            valid_score_em, valid_score_f1, valid_loss = eval_on_model(
                model=model,
                criterion=criterion,
                batch_data=batch_dev_data,
                epoch=epoch,
                device=device)
            valid_avg = (valid_score_em + valid_score_f1) / 2
        logger.info(
            "epoch=%d, ave_score_em=%.2f, ave_score_f1=%.2f, sum_loss=%.5f" %
            (epoch, valid_score_em, valid_score_f1, valid_loss))

        # save model when best avg score
        if valid_avg > best_avg:
            save_model(
                model,
                epoch=epoch,
                model_weight_path=global_config['data']['model_path'],
                checkpoint_path=global_config['data']['checkpoint_path'])
            logger.info("saving model weight on epoch=%d" % epoch)
            best_avg = valid_avg
    logger.info('pretraining finished.')

    if global_config['global']['finetune']:
        batch_train_data = dataset.get_dataloader_train2(
            train_batch_size, num_workers)
        batch_dev_data = dataset.get_dataloader_dev2(valid_batch_size,
                                                     num_workers)
        for epoch in range(global_config['train']['finetune_epoch']):
            # train
            model.train()  # set training = True, make sure right dropout
            sum_loss = train_on_model(model=model,
                                      criterion=criterion,
                                      optimizer=optimizer,
                                      batch_data=batch_train_data,
                                      epoch=epoch,
                                      clip_grad_max=clip_grad_max,
                                      device=device)
            logger.info('finetune epoch=%d, sum_loss=%.5f' % (epoch, sum_loss))

            # evaluate
            with torch.no_grad():
                model.eval()  # let training = False, make sure right dropout
                valid_score_em, valid_score_f1, valid_loss = eval_on_model(
                    model=model,
                    criterion=criterion,
                    batch_data=batch_dev_data,
                    epoch=epoch,
                    device=device)
                valid_avg = (valid_score_em + valid_score_f1) / 2
            logger.info(
                "finetune epoch=%d, ave_score_em=%.2f, ave_score_f1=%.2f, sum_loss=%.5f"
                % (epoch, valid_score_em, valid_score_f1, valid_loss))

            # save model when best avg score
            if valid_avg > best_avg:
                save_model(
                    model,
                    epoch=epoch,
                    model_weight_path=global_config['data']['model_path'],
                    checkpoint_path=global_config['data']['checkpoint_path'])
                logger.info("saving model weight on epoch=%d" % epoch)
                best_avg = valid_avg

    if global_config['global']['finetune2']:
        batch_train_data = dataset.get_dataloader_train3(
            train_batch_size, num_workers)
        batch_dev_data = dataset.get_dataloader_dev3(valid_batch_size,
                                                     num_workers)
        for epoch in range(global_config['train']['finetune_epoch2']):
            # train
            model.train()  # set training = True, make sure right dropout
            sum_loss = train_on_model(model=model,
                                      criterion=criterion,
                                      optimizer=optimizer,
                                      batch_data=batch_train_data,
                                      epoch=epoch,
                                      clip_grad_max=clip_grad_max,
                                      device=device)
            logger.info('finetune2 epoch=%d, sum_loss=%.5f' %
                        (epoch, sum_loss))

            # evaluate
            with torch.no_grad():
                model.eval()  # let training = False, make sure right dropout
                valid_score_em, valid_score_f1, valid_loss = eval_on_model(
                    model=model,
                    criterion=criterion,
                    batch_data=batch_dev_data,
                    epoch=epoch,
                    device=device)
                valid_avg = (valid_score_em + valid_score_f1) / 2
            logger.info(
                "finetune2 epoch=%d, ave_score_em=%.2f, ave_score_f1=%.2f, sum_loss=%.5f"
                % (epoch, valid_score_em, valid_score_f1, valid_loss))

            # save model when best avg score
            if valid_avg > best_avg:
                save_model(
                    model,
                    epoch=epoch,
                    model_weight_path=global_config['data']['model_path'],
                    checkpoint_path=global_config['data']['checkpoint_path'])
                logger.info("saving model weight on epoch=%d" % epoch)
                best_avg = valid_avg

    logger.info('finished.')
コード例 #3
0
ファイル: test.py プロジェクト: smu-software-analytics/CocoQa
def test(config_path, out_path):
    logger.info('------------MODEL PREDICT--------------')
    logger.info('loading config file...')
    global_config = read_config(config_path)

    # set random seed
    seed = global_config['global']['random_seed']
    torch.manual_seed(seed)

    #set default gpu
    os.environ["CUDA_VISIBLE_DEVICES"] = str(global_config['train']["gpu_id"])

    enable_cuda = global_config['test']['enable_cuda']
    device = torch.device("cuda" if enable_cuda else "cpu")
    if torch.cuda.is_available() and not enable_cuda:
        logger.warning("CUDA is avaliable, you can enable CUDA in config file")
    elif not torch.cuda.is_available() and enable_cuda:
        raise ValueError(
            "CUDA is not abaliable, please unable CUDA in config file")

    torch.set_grad_enabled(
        False)  # make sure all tensors below have require_grad=False,

    logger.info('reading squad dataset...')
    dataset = SquadDataset(global_config)

    logger.info('constructing model...')
    model_choose = global_config['global']['model']
    dataset_h5_path = global_config['data']['dataset_h5']
    if model_choose == 'base':
        model_config = read_config('config/base_model.yaml')
        model = BaseModel(dataset_h5_path, model_config)
    elif model_choose == 'match-lstm':
        model = MatchLSTM(dataset_h5_path)
    elif model_choose == 'match-lstm+':
        model = MatchLSTMPlus(dataset_h5_path,
                              global_config['preprocess']['use_domain_tag'])
    elif model_choose == 'r-net':
        model = RNet(dataset_h5_path)
    elif model_choose == 'm-reader':
        model = MReader(dataset_h5_path)
    else:
        raise ValueError('model "%s" in config file not recoginized' %
                         model_choose)

    model = model.to(device)
    model.eval()  # let training = False, make sure right dropout

    # load model weight
    logger.info('loading model weight...')
    model_weight_path = global_config['data']['model_path']
    assert os.path.exists(
        model_weight_path
    ), "not found model weight file on '%s'" % model_weight_path

    weight = torch.load(model_weight_path,
                        map_location=lambda storage, loc: storage)
    if enable_cuda:
        weight = torch.load(model_weight_path,
                            map_location=lambda storage, loc: storage.cuda())
    model.load_state_dict(weight, strict=False)

    # forward
    logger.info('forwarding...')

    batch_size = global_config['test']['batch_size']

    num_workers = global_config['global']['num_data_workers']

    if 'test_path' not in global_config['data']['dataset']:
        batch_test_data = dataset.get_dataloader_dev(batch_size, num_workers)
    else:
        batch_test_data = dataset.get_dataloader_test(batch_size, num_workers)

    # to just evaluate score or write answer to file
    if out_path is None:
        criterion = MyNLLLoss()
        score_em, score_f1, sum_loss = eval_on_model(
            model=model,
            criterion=criterion,
            batch_data=batch_test_data,
            epoch=None,
            device=device)
        logger.info(
            "test: ave_score_em=%.2f, ave_score_f1=%.2f, sum_loss=%.5f" %
            (score_em, score_f1, sum_loss))
    else:
        #context_right_space = dataset.get_all_ct_right_space_dev()
        context_right_space = dataset.get_all_ct_right_space_test()
        predict_ans = predict_on_model(
            model=model,
            batch_data=batch_test_data,
            device=device,
            id_to_word_func=dataset.sentence_id2word,
            right_space=context_right_space)
        #samples_id = dataset.get_all_samples_id_dev()
        samples_id = dataset.get_all_samples_id_test()
        ans_with_id = dict(zip(samples_id, predict_ans))

        logging.info('writing predict answer to file %s' % out_path)
        with open(out_path, 'w') as f:
            json.dump(ans_with_id, f)

    logging.info('finished.')
コード例 #4
0
ファイル: test.py プロジェクト: SerenaKhoo/Match-LSTM
def test(config_path, out_path):
    logger.info('------------MODEL PREDICT--------------')
    logger.info('loading config file...')
    global_config = read_config(config_path)

    # set random seed
    seed = global_config['global']['random_seed']
    torch.manual_seed(seed)

    enable_cuda = global_config['test']['enable_cuda']
    device = torch.device("cuda" if enable_cuda else "cpu")
    if torch.cuda.is_available() and not enable_cuda:
        logger.warning("CUDA is avaliable, you can enable CUDA in config file")
    elif not torch.cuda.is_available() and enable_cuda:
        raise ValueError("CUDA is not abaliable, please unable CUDA in config file")

    torch.set_grad_enabled(False)  # make sure all tensors below have require_grad=False,

    logger.info('reading squad dataset...')
    dataset = SquadDataset(global_config)

    logger.info('constructing model...')
    model_choose = global_config['global']['model']
    dataset_h5_path = global_config['data']['dataset_h5']
    if model_choose == 'base':
        model_config = read_config('config/base_model.yaml')
        model = BaseModel(dataset_h5_path,
                          model_config)
    elif model_choose == 'match-lstm':
        model = MatchLSTM(dataset_h5_path)
    elif model_choose == 'match-lstm+':
        model = MatchLSTMPlus(dataset_h5_path)
    elif model_choose == 'r-net':
        model = RNet(dataset_h5_path)
    elif model_choose == 'm-reader':
        model = MReader(dataset_h5_path)
    else:
        raise ValueError('model "%s" in config file not recoginized' % model_choose)

    model = model.to(device)
    model.eval()  # let training = False, make sure right dropout

    # load model weight
    logger.info('loading model weight...')
    model_weight_path = global_config['data']['model_path']
    assert os.path.exists(model_weight_path), "not found model weight file on '%s'" % model_weight_path

    weight = torch.load(model_weight_path, map_location=lambda storage, loc: storage)
    if enable_cuda:
        weight = torch.load(model_weight_path, map_location=lambda storage, loc: storage.cuda())
    model.load_state_dict(weight, strict=False)

    # forward
    logger.info('forwarding...')

    batch_size = global_config['test']['batch_size']

    num_workers = global_config['global']['num_data_workers']
    batch_dev_data = dataset.get_dataloader_dev(batch_size, num_workers)

    # to just evaluate score or write answer to file
    if out_path is None:
        criterion = MyNLLLoss()
        score_em, score_f1, sum_loss = eval_on_model(model=model,
                                                     criterion=criterion,
                                                     batch_data=batch_dev_data,
                                                     epoch=None,
                                                     device=device)
        logger.info("test: ave_score_em=%.2f, ave_score_f1=%.2f, sum_loss=%.5f" % (score_em, score_f1, sum_loss))
    else:
        context_right_space = dataset.get_all_ct_right_space_dev()
        predict_ans = predict_on_model(model=model,
                                       batch_data=batch_dev_data,
                                       device=device,
                                       id_to_word_func=dataset.sentence_id2word,
                                       right_space=context_right_space)
        samples_id = dataset.get_all_samples_id_dev()
        ans_with_id = dict(zip(samples_id, predict_ans))

        logging.info('writing predict answer to file %s' % out_path)
        with open(out_path, 'w') as f:
            json.dump(ans_with_id, f)

    logging.info('finished.')