TypeError:__init __()缺少1个必需的位置参数:使用AdamAccumulate时出现“名称”问题

When I use this AdamAccumulate code from here for Image Classification with TensorFlow and Keras but it shows this error.

TypeError: __init__() missing 1 required positional argument: 'name'

我在Google Colab中使用TensorFlow 2.2.0'和Keras 2.3.0-tf。

我尝试降级为TensorFlow,但无济于事。但是,当我在Kaggle中使用它时,就很好了,所以我不知道如何解决它。我想在Google Colab中运行此代码。

import keras.backend as K
from keras.legacy import interfaces
from keras.optimizers import Optimizer

class AdamAccumulate(Optimizer):

    def __init__(self, lr=0.001, beta_1=0.9, beta_2=0.999,
                 epsilon=None, decay=0., amsgrad=False, accum_iters=1, **kwargs):
        if accum_iters < 1:
            raise ValueError('accum_iters must be >= 1')
        super(AdamAccumulate, self).__init__(**kwargs)
        with K.name_scope(self.__class__.__name__):
            self.iterations = K.variable(0, dtype='int64', name='iterations')
            self.lr = K.variable(lr, name='lr')
            self.beta_1 = K.variable(beta_1, name='beta_1')
            self.beta_2 = K.variable(beta_2, name='beta_2')
            self.decay = K.variable(decay, name='decay')
        if epsilon is None:
            epsilon = K.epsilon()
        self.epsilon = epsilon
        self.initial_decay = decay
        self.amsgrad = amsgrad
        self.accum_iters = K.variable(accum_iters, K.dtype(self.iterations))
        self.accum_iters_float = K.cast(self.accum_iters, K.floatx())

    @interfaces.legacy_get_updates_support
    def get_updates(self, loss, params):
        grads = self.get_gradients(loss, params)
        self.updates = [K.update_add(self.iterations, 1)]

        lr = self.lr

        completed_updates = K.cast(K.tf.floordiv(self.iterations, self.accum_iters), K.floatx())

        if self.initial_decay > 0:
            lr = lr * (1. / (1. + self.decay * completed_updates))

        t = completed_updates + 1

        lr_t = lr * (K.sqrt(1. - K.pow(self.beta_2, t)) / (1. - K.pow(self.beta_1, t)))

        # self.iterations incremented after processing a batch
        # batch:              1 2 3 4 5 6 7 8 9
        # self.iterations:    0 1 2 3 4 5 6 7 8
        # update_switch = 1:        x       x    (if accum_iters=4)  
        update_switch = K.equal((self.iterations + 1) % self.accum_iters, 0)
        update_switch = K.cast(update_switch, K.floatx())

        ms = [K.zeros(K.int_shape(p), dtype=K.dtype(p)) for p in params]
        vs = [K.zeros(K.int_shape(p), dtype=K.dtype(p)) for p in params]
        gs = [K.zeros(K.int_shape(p), dtype=K.dtype(p)) for p in params]

        if self.amsgrad:
            vhats = [K.zeros(K.int_shape(p), dtype=K.dtype(p)) for p in params]
        else:
            vhats = [K.zeros(1) for _ in params]

        self.weights = [self.iterations] + ms + vs + vhats

        for p, g, m, v, vhat, tg in zip(params, grads, ms, vs, vhats, gs):

            sum_grad = tg + g
            avg_grad = sum_grad / self.accum_iters_float

            m_t = (self.beta_1 * m) + (1. - self.beta_1) * avg_grad
            v_t = (self.beta_2 * v) + (1. - self.beta_2) * K.square(avg_grad)

            if self.amsgrad:
                vhat_t = K.maximum(vhat, v_t)
                p_t = p - lr_t * m_t / (K.sqrt(vhat_t) + self.epsilon)
                self.updates.append(K.update(vhat, (1 - update_switch) * vhat + update_switch * vhat_t))
            else:
                p_t = p - lr_t * m_t / (K.sqrt(v_t) + self.epsilon)

            self.updates.append(K.update(m, (1 - update_switch) * m + update_switch * m_t))
            self.updates.append(K.update(v, (1 - update_switch) * v + update_switch * v_t))
            self.updates.append(K.update(tg, (1 - update_switch) * sum_grad))
            new_p = p_t

            # Apply constraints.
            if getattr(p, 'constraint', None) is not None:
                new_p = p.constraint(new_p)

            self.updates.append(K.update(p, (1 - update_switch) * p + update_switch * new_p))
        return self.updates

    def get_config(self):
        config = {'lr': float(K.get_value(self.lr)),
                  'beta_1': float(K.get_value(self.beta_1)),
                  'beta_2': float(K.get_value(self.beta_2)),
                  'decay': float(K.get_value(self.decay)),
                  'epsilon': self.epsilon,
                  'amsgrad': self.amsgrad}
        base_config = super(AdamAccumulate, self).get_config()
        return dict(list(base_config.items()) + list(config.items()))
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