Beispiel #1
0
def main():
    config = load_config(FLAGS.config)
    merge_config(FLAGS.opt)
    char_ops = CharacterOps(config['Global'])
    config['Global']['char_num'] = char_ops.get_char_num()

    # check if set use_gpu=True in paddlepaddle cpu version
    use_gpu = config['Global']['use_gpu']
    check_gpu(use_gpu)

    place = fluid.CUDAPlace(0) if use_gpu else fluid.CPUPlace()
    exe = fluid.Executor(place)

    rec_model = create_module(
        config['Architecture']['function'])(params=config)

    startup_prog = fluid.Program()
    eval_prog = fluid.Program()
    with fluid.program_guard(eval_prog, startup_prog):
        with fluid.unique_name.guard():
            eval_outputs = rec_model(mode="test")
            eval_fetch_list = [v.name for v in eval_outputs]
    eval_prog = eval_prog.clone(for_test=True)
    exe.run(startup_prog)

    pretrain_weights = config['Global']['pretrain_weights']
    if pretrain_weights is not None:
        fluid.load(eval_prog, pretrain_weights)

    test_img_path = config['test_img_path']
    image_shape = config['Global']['image_shape']
    blobs = test_reader(image_shape, test_img_path)
    predict = exe.run(program=eval_prog,
                      feed={"image": blobs},
                      fetch_list=eval_fetch_list,
                      return_numpy=False)
    preds = np.array(predict[0])
    if preds.shape[1] == 1:
        preds = preds.reshape(-1)
        preds_lod = predict[0].lod()[0]
        preds_text = char_ops.decode(preds)
    else:
        end_pos = np.where(preds[0, :] == 1)[0]
        if len(end_pos) <= 1:
            preds_text = preds[0, 1:]
        else:
            preds_text = preds[0, 1:end_pos[1]]
        preds_text = preds_text.reshape(-1)
        preds_text = char_ops.decode(preds_text)

    fluid.io.save_inference_model("./output/",
                                  feeded_var_names=['image'],
                                  target_vars=eval_outputs,
                                  executor=exe,
                                  main_program=eval_prog,
                                  model_filename="model",
                                  params_filename="params")
    print(preds)
    print(preds_text)
def test_reader():
    config = load_config(FLAGS.config)
    merge_config(FLAGS.opt)
    print(config)
    tmp_reader = reader.test_reader(config=config)
    count = 0
    print_count = 0
    import time
    starttime = time.time()
    for data in tmp_reader():
        count += len(data)
        print_count += 1
        if print_count % 10 == 0:
            batch_time = (time.time() - starttime) / print_count
            print("reader:", count, len(data), batch_time)
    print("finish reader:", count)
    print("success")
def main():
    config = load_config(FLAGS.config)
    merge_config(FLAGS.opt)
    print(config)

    # check if set use_gpu=True in paddlepaddle cpu version
    use_gpu = config['Global']['use_gpu']
    check_gpu(use_gpu)

    place = fluid.CUDAPlace(0) if use_gpu else fluid.CPUPlace()
    exe = fluid.Executor(place)

    det_model = create_module(config['Architecture']['function'])(params=config)

    startup_prog = fluid.Program()
    eval_prog = fluid.Program()
    with fluid.program_guard(eval_prog, startup_prog):
        with fluid.unique_name.guard():
            eval_loader, eval_outputs = det_model(mode="test")
            eval_fetch_list = [v.name for v in eval_outputs]
    eval_prog = eval_prog.clone(for_test=True)
    exe.run(startup_prog)

    pretrain_weights = config['Global']['pretrain_weights']
    if pretrain_weights is not None:
        load_pretrain(exe, eval_prog, pretrain_weights)
#         fluid.load(eval_prog, pretrain_weights)
#         def if_exist(var):
#             return os.path.exists(os.path.join(pretrain_weights, var.name))
#         fluid.io.load_vars(exe, pretrain_weights, predicate=if_exist, main_program=eval_prog)
    else:
        logger.info("Not find pretrain_weights:%s" % pretrain_weights)
        sys.exit(0)

#     fluid.io.save_inference_model("./output/", feeded_var_names=['image'],
#         target_vars=eval_outputs, executor=exe, main_program=eval_prog,
#         model_filename="model", params_filename="params")
#     sys.exit(-1)

    metrics = eval_det_run(exe, eval_prog, eval_fetch_list, config, "test")
    logger.info("metrics:{}".format(metrics))
    logger.info("success!")
Beispiel #4
0
def test_reader():
    config = load_config(FLAGS.config)
    merge_config(FLAGS.opt)
    char_ops = CharacterOps(config['Global'])
    config['Global']['char_num'] = char_ops.get_char_num()
    print(config)
    #     tmp_reader = reader.train_eval_reader(
    #         config=cfg, char_ops=char_ops, mode="train")
    tmp_reader = reader.train_eval_reader(config=config,
                                          char_ops=char_ops,
                                          mode="eval")
    count = 0
    print_count = 0
    import time
    starttime = time.time()
    for data in tmp_reader():
        count += len(data)
        print_count += 1
        if print_count % 10 == 0:
            batch_time = (time.time() - starttime) / print_count
            print("reader:", count, len(data), batch_time)
    print("finish reader:", count)
    print("success")
def main():
    config = load_config(FLAGS.config)
    merge_config(FLAGS.opt)
    char_ops = CharacterOps(config['Global'])
    config['Global']['char_num'] = char_ops.get_char_num()

    # check if set use_gpu=True in paddlepaddle cpu version
    use_gpu = config['Global']['use_gpu']
    check_gpu(use_gpu)

    if use_gpu:
        devices_num = fluid.core.get_cuda_device_count()
    else:
        devices_num = int(
            os.environ.get('CPU_NUM', multiprocessing.cpu_count()))

    place = fluid.CUDAPlace(0) if use_gpu else fluid.CPUPlace()
    exe = fluid.Executor(place)

    rec_model = create_module(
        config['Architecture']['function'])(params=config)

    startup_prog = fluid.Program()
    eval_prog = fluid.Program()
    with fluid.program_guard(eval_prog, startup_prog):
        with fluid.unique_name.guard():
            eval_loader, eval_outputs = rec_model(mode="eval")
            eval_fetch_list = [v.name for v in eval_outputs]
    eval_prog = eval_prog.clone(for_test=True)

    exe.run(startup_prog)
    pretrain_weights = config['Global']['pretrain_weights']
    if pretrain_weights is not None:
        fluid.load(eval_prog, pretrain_weights)

    eval_data_list = ['IIIT5k_3000', 'SVT', 'IC03_860', 'IC03_867',\
        'IC13_857', 'IC13_1015', 'IC15_1811', 'IC15_2077', 'SVTP', 'CUTE80']
    eval_data_dir = config['TestReader']['lmdb_sets_dir']
    total_forward_time = 0
    total_evaluation_data_number = 0
    total_correct_number = 0
    eval_data_acc_info = {}
    for eval_data in eval_data_list:
        config['TestReader']['lmdb_sets_dir'] = \
            eval_data_dir + "/" + eval_data
        eval_reader = reader.train_eval_reader(config=config,
                                               char_ops=char_ops,
                                               mode="test")
        eval_loader.set_sample_list_generator(eval_reader, places=place)

        start_time = time.time()
        outs = eval_run(exe, eval_prog, eval_loader, eval_fetch_list, char_ops,
                        "best", "test")
        infer_time = time.time() - start_time
        eval_acc, acc_num, sample_num = outs
        total_forward_time += infer_time
        total_evaluation_data_number += sample_num
        total_correct_number += acc_num
        eval_data_acc_info[eval_data] = outs

    avg_forward_time = total_forward_time / total_evaluation_data_number
    avg_acc = total_correct_number * 1.0 / total_evaluation_data_number
    logger.info('-' * 50)
    strs = ""
    for eval_data in eval_data_list:
        eval_acc, acc_num, sample_num = eval_data_acc_info[eval_data]
        strs += "\n {}, accuracy:{:.6f}".format(eval_data, eval_acc)
    strs += "\n average, accuracy:{:.6f}, time:{:.6f}".format(
        avg_acc, avg_forward_time)
    logger.info(strs)
    logger.info('-' * 50)
def main():
    config = load_config(FLAGS.config)
    merge_config(FLAGS.opt)
    print(config)

    # check if set use_gpu=True in paddlepaddle cpu version
    use_gpu = config['Global']['use_gpu']
    check_gpu(use_gpu)

    place = fluid.CUDAPlace(0) if use_gpu else fluid.CPUPlace()
    exe = fluid.Executor(place)

    det_model = create_module(config['Architecture']['function'])(params=config)

    startup_prog = fluid.Program()
    eval_prog = fluid.Program()
    with fluid.program_guard(eval_prog, startup_prog):
        with fluid.unique_name.guard():
            eval_outputs = det_model(mode="test")
            eval_fetch_list = [v.name for v in eval_outputs]
    eval_prog = eval_prog.clone(for_test=True)
    exe.run(startup_prog)

    pretrain_weights = config['Global']['pretrain_weights']
    if pretrain_weights is not None:
        fluid.load(eval_prog, pretrain_weights)
    else:
        logger.info("Not find pretrain_weights:%s" % pretrain_weights)
        sys.exit(0)

    save_res_path = config['Global']['save_res_path']
    with open(save_res_path, "wb") as fout:
        test_reader = reader.test_reader(config=config)
        tackling_num = 0
        for data in test_reader():
            img_num = len(data)
            tackling_num = tackling_num + img_num
            logger.info("tackling_num:%d", tackling_num)
            img_list = []
            ratio_list = []
            img_name_list = []
            for ino in range(img_num):
                img_list.append(data[ino][0])
                ratio_list.append(data[ino][1])
                img_name_list.append(data[ino][2])
            img_list = np.concatenate(img_list, axis=0)
            outs = exe.run(eval_prog,\
                feed={'image': img_list},\
                fetch_list=eval_fetch_list)

            global_params = config['Global']
            postprocess_params = deepcopy(config["PostProcess"])
            postprocess_params.update(global_params)
            postprocess = create_module(postprocess_params['function'])\
                (params=postprocess_params)
            dt_boxes_list = postprocess(outs, ratio_list)
            for ino in range(img_num):
                dt_boxes = dt_boxes_list[ino]
                img_name = img_name_list[ino]
                dt_boxes_json = []
                for box in dt_boxes:
                    tmp_json = {"transcription": ""}
                    tmp_json['points'] = box.tolist()
                    dt_boxes_json.append(tmp_json)
                otstr = img_name + "\t" + json.dumps(dt_boxes_json) + "\n"
                fout.write(otstr.encode())
                #draw_det_res(dt_boxes, config, img_name, ino)
    logger.info("success!")
def main():
    config = load_config(FLAGS.config)
    merge_config(FLAGS.opt)
    print(config)

    alg = config['Global']['algorithm']
    assert alg in ['EAST', 'DB']

    # check if set use_gpu=True in paddlepaddle cpu version
    use_gpu = config['Global']['use_gpu']
    check_gpu(use_gpu)

    place = fluid.CUDAPlace(0) if use_gpu else fluid.CPUPlace()
    exe = fluid.Executor(place)

    det_model = create_module(
        config['Architecture']['function'])(params=config)

    startup_prog = fluid.Program()
    train_prog = fluid.Program()
    with fluid.program_guard(train_prog, startup_prog):
        with fluid.unique_name.guard():
            train_loader, train_outputs = det_model(mode="train")
            train_fetch_list = [v.name for v in train_outputs]
            train_loss = train_outputs[0]
            opt_params = config['Optimizer']
            optimizer = create_module(opt_params['function'])(opt_params)
            optimizer.minimize(train_loss)
            global_lr = optimizer._global_learning_rate()
            global_lr.persistable = True
            train_fetch_list.append(global_lr.name)

    eval_prog = fluid.Program()
    with fluid.program_guard(eval_prog, startup_prog):
        with fluid.unique_name.guard():
            eval_loader, eval_outputs = det_model(mode="eval")
            eval_fetch_list = [v.name for v in eval_outputs]
    eval_prog = eval_prog.clone(for_test=True)

    train_reader = reader.train_reader(config=config)
    train_loader.set_sample_list_generator(train_reader, places=place)

    exe.run(startup_prog)

    # compile program for multi-devices
    train_compile_program = create_multi_devices_program(
        train_prog, train_loss.name)

    pretrain_weights = config['Global']['pretrain_weights']
    if pretrain_weights is not None:
        load_pretrain(exe, train_prog, pretrain_weights)
        print("pretrain weights loaded!")

    train_batch_id = 0
    if alg == 'EAST':
        train_log_keys = ['loss_total', 'loss_cls', 'loss_offset']
    elif alg == 'DB':
        train_log_keys = [
            'loss_total', 'loss_shrink', 'loss_threshold', 'loss_binary'
        ]
    log_smooth_window = config['Global']['log_smooth_window']
    epoch_num = config['Global']['epoch_num']
    print_step = config['Global']['print_step']
    eval_step = config['Global']['eval_step']
    save_epoch_step = config['Global']['save_epoch_step']
    save_dir = config['Global']['save_dir']
    train_stats = TrainingStats(log_smooth_window, train_log_keys)
    best_eval_hmean = -1
    best_batch_id = 0
    best_epoch = 0
    for epoch in range(epoch_num):
        train_loader.start()
        try:
            while True:
                t1 = time.time()
                train_outs = exe.run(program=train_compile_program,
                                     fetch_list=train_fetch_list,
                                     return_numpy=False)
                loss_total = np.mean(np.array(train_outs[0]))
                if alg == 'EAST':
                    loss_cls = np.mean(np.array(train_outs[1]))
                    loss_offset = np.mean(np.array(train_outs[2]))
                    stats = {'loss_total':loss_total, 'loss_cls':loss_cls,\
                        'loss_offset':loss_offset}
                elif alg == 'DB':
                    loss_shrink_maps = np.mean(np.array(train_outs[1]))
                    loss_threshold_maps = np.mean(np.array(train_outs[2]))
                    loss_binary_maps = np.mean(np.array(train_outs[3]))
                    stats = {'loss_total':loss_total, 'loss_shrink':loss_shrink_maps, \
                        'loss_threshold':loss_threshold_maps, 'loss_binary':loss_binary_maps}
                lr = np.mean(np.array(train_outs[-1]))
                t2 = time.time()
                train_batch_elapse = t2 - t1

                # stats = {'loss_total':loss_total, 'loss_cls':loss_cls,\
                #     'loss_offset':loss_offset}
                train_stats.update(stats)
                if train_batch_id > 0 and train_batch_id % print_step == 0:
                    logs = train_stats.log()
                    strs = 'epoch: {}, iter: {}, lr: {:.6f}, {}, time: {:.3f}'.format(
                        epoch, train_batch_id, lr, logs, train_batch_elapse)
                    logger.info(strs)

                if train_batch_id > 0 and\
                    train_batch_id % eval_step == 0:
                    metrics = eval_det_run(exe, eval_prog, eval_fetch_list,
                                           config, "eval")
                    hmean = metrics['hmean']
                    if hmean >= best_eval_hmean:
                        best_eval_hmean = hmean
                        best_batch_id = train_batch_id
                        best_epoch = epoch
                        save_path = save_dir + "/best_accuracy"
                        save_model(train_prog, save_path)
                    strs = 'Test iter: {}, metrics:{}, best_hmean:{:.6f}, best_epoch:{}, best_batch_id:{}'.format(
                        train_batch_id, metrics, best_eval_hmean, best_epoch,
                        best_batch_id)
                    logger.info(strs)
                train_batch_id += 1

        except fluid.core.EOFException:
            train_loader.reset()

        if epoch > 0 and epoch % save_epoch_step == 0:
            save_path = save_dir + "/iter_epoch_%d" % (epoch)
            save_model(train_prog, save_path)
Beispiel #8
0
def main():
    config = load_config(FLAGS.config)
    merge_config(FLAGS.opt)
    char_ops = CharacterOps(config['Global'])
    config['Global']['char_num'] = char_ops.get_char_num()
    print(config)

    # check if set use_gpu=True in paddlepaddle cpu version
    use_gpu = config['Global']['use_gpu']
    check_gpu(use_gpu)

    place = fluid.CUDAPlace(0) if use_gpu else fluid.CPUPlace()
    exe = fluid.Executor(place)

    rec_model = create_module(
        config['Architecture']['function'])(params=config)

    startup_prog = fluid.Program()
    train_prog = fluid.Program()
    with fluid.program_guard(train_prog, startup_prog):
        with fluid.unique_name.guard():
            train_loader, train_outputs = rec_model(mode="train")
            save_var = train_outputs[1]

            if "gradient_clip" in config['Global']:
                gradient_clip = config['Global']['gradient_clip']
                clip = fluid.clip.GradientClipByGlobalNorm(gradient_clip)
                fluid.clip.set_gradient_clip(clip, program=train_prog)

            train_fetch_list = [v.name for v in train_outputs]
            train_loss = train_outputs[0]
            opt_params = config['Optimizer']
            optimizer = create_module(opt_params['function'])(opt_params)
            optimizer.minimize(train_loss)
            global_lr = optimizer._global_learning_rate()
            global_lr.persistable = True
            train_fetch_list.append(global_lr.name)

    train_reader = reader.train_eval_reader(config=config,
                                            char_ops=char_ops,
                                            mode="train")
    train_loader.set_sample_list_generator(train_reader, places=place)

    eval_prog = fluid.Program()
    with fluid.program_guard(eval_prog, startup_prog):
        with fluid.unique_name.guard():
            eval_loader, eval_outputs = rec_model(mode="eval")
            eval_fetch_list = [v.name for v in eval_outputs]

    eval_prog = eval_prog.clone(for_test=True)
    exe.run(startup_prog)

    eval_reader = reader.train_eval_reader(config=config,
                                           char_ops=char_ops,
                                           mode="eval")
    eval_loader.set_sample_list_generator(eval_reader, places=place)

    # compile program for multi-devices
    train_compile_program = create_multi_devices_program(
        train_prog, train_loss.name)

    pretrain_weights = config['Global']['pretrain_weights']
    if pretrain_weights is not None:
        load_pretrain(exe, train_prog, pretrain_weights)

    train_batch_id = 0
    train_log_keys = ['loss', 'acc']
    log_smooth_window = config['Global']['log_smooth_window']
    epoch_num = config['Global']['epoch_num']
    loss_type = config['Global']['loss_type']
    print_step = config['Global']['print_step']
    eval_step = config['Global']['eval_step']
    save_epoch_step = config['Global']['save_epoch_step']
    save_dir = config['Global']['save_dir']
    train_stats = TrainingStats(log_smooth_window, train_log_keys)
    best_eval_acc = -1
    best_batch_id = 0
    best_epoch = 0
    for epoch in range(epoch_num):
        train_loader.start()
        try:
            while True:
                t1 = time.time()
                train_outs = exe.run(program=train_compile_program,
                                     fetch_list=train_fetch_list,
                                     return_numpy=False)
                loss = np.mean(np.array(train_outs[0]))
                lr = np.mean(np.array(train_outs[-1]))

                preds = np.array(train_outs[1])
                preds_lod = train_outs[1].lod()[0]
                labels = np.array(train_outs[2])
                labels_lod = train_outs[2].lod()[0]

                acc, acc_num, img_num = cal_predicts_accuracy(
                    char_ops, preds, preds_lod, labels, labels_lod)

                t2 = time.time()
                train_batch_elapse = t2 - t1

                stats = {'loss': loss, 'acc': acc}
                train_stats.update(stats)
                if train_batch_id > 0 and train_batch_id % print_step == 0:
                    logs = train_stats.log()
                    strs = 'epoch: {}, iter: {}, lr: {:.6f}, {}, time: {:.3f}'.format(
                        epoch, train_batch_id, lr, logs, train_batch_elapse)
                    logger.info(strs)

                if train_batch_id > 0 and train_batch_id % eval_step == 0:
                    outs = eval_run(exe, eval_prog, eval_loader,
                                    eval_fetch_list, char_ops, train_batch_id,
                                    "eval")
                    eval_acc, acc_num, sample_num = outs
                    if eval_acc > best_eval_acc:
                        best_eval_acc = eval_acc
                        best_batch_id = train_batch_id
                        best_epoch = epoch
                        save_path = save_dir + "/best_accuracy"
                        save_model(train_prog, save_path)

                    strs = 'Test iter: {}, acc:{:.6f}, best_acc:{:.6f}, best_epoch:{}, best_batch_id:{}, sample_num:{}'.format(
                        train_batch_id, eval_acc, best_eval_acc, best_epoch,
                        best_batch_id, sample_num)
                    logger.info(strs)
                train_batch_id += 1

        except fluid.core.EOFException:
            train_loader.reset()

        if epoch > 0 and epoch % save_epoch_step == 0:
            save_path = save_dir + "/iter_epoch_%d" % (epoch)
            save_model(train_prog, save_path)