本文介绍了tensorflow中next_batch的具体使用,分享给大家,具体如下:
此处给出了几种不同的next_batch方法,该文章只是做出代码片段的解释,以备以后查看:
def next_batch(self, batch_size, fake_data=False): """Return the next `batch_size` examples from this data set.""" if fake_data: fake_image = [1] * 784 if self.one_hot: fake_label = [1] + [0] * 9 else: fake_label = 0 return [fake_image for _ in xrange(batch_size)], [ fake_label for _ in xrange(batch_size) ] start = self._index_in_epoch self._index_in_epoch += batch_size if self._index_in_epoch > self._num_examples: # epoch中的句子下标是否大于所有语料的个数,如果为True,开始新一轮的遍历 # Finished epoch self._epochs_completed += 1 # Shuffle the data perm = numpy.arange(self._num_examples) # arange函数用于创建等差数组 numpy.random.shuffle(perm) # 打乱 self._images = self._images[perm] self._labels = self._labels[perm] # Start next epoch start = 0 self._index_in_epoch = batch_size assert batch_size <= self._num_examples end = self._index_in_epoch return self._images[start:end], self._labels[start:end]
该段代码摘自mnist.py文件,从代码第12行start = self._index_in_epoch开始解释,_index_in_epoch-1是上一次batch个图片中最后一张图片的下边,这次epoch第一张图片的下标是从 _index_in_epoch开始,最后一张图片的下标是_index_in_epoch+batch, 如果 _index_in_epoch 大于语料中图片的个数,表示这个epoch是不合适的,就算是完成了语料的一遍的遍历,所以应该对图片洗牌然后开始新一轮的语料组成batch开始
def ptb_iterator(raw_data, batch_size, num_steps): """Iterate on the raw PTB data. This generates batch_size pointers into the raw PTB data, and allows minibatch iteration along these pointers. Args: raw_data: one of the raw data outputs from ptb_raw_data. batch_size: int, the batch size. num_steps: int, the number of unrolls. Yields: Pairs of the batched data, each a matrix of shape [batch_size, num_steps]. The second element of the tuple is the same data time-shifted to the right by one. Raises: ValueError: if batch_size or num_steps are too high. """ raw_data = np.array(raw_data, dtype=np.int32) data_len = len(raw_data) batch_len = data_len // batch_size #有多少个batch data = np.zeros([batch_size, batch_len], dtype=np.int32) # batch_len 有多少个单词 for i in range(batch_size): # batch_size 有多少个batch data[i] = raw_data[batch_len * i:batch_len * (i + 1)] epoch_size = (batch_len - 1) // num_steps # batch_len 是指一个batch中有多少个句子 #epoch_size = ((len(data) // model.batch_size) - 1) // model.num_steps # // 表示整数除法 if epoch_size == 0: raise ValueError("epoch_size == 0, decrease batch_size or num_steps") for i in range(epoch_size): x = data[:, i*num_steps:(i+1)*num_steps] y = data[:, i*num_steps+1:(i+1)*num_steps+1] yield (x, y)
第三种方式:
def next(self, batch_size): """ Return a batch of data. When dataset end is reached, start over. """ if self.batch_id == len(self.data): self.batch_id = 0 batch_data = (self.data[self.batch_id:min(self.batch_id + batch_size, len(self.data))]) batch_labels = (self.labels[self.batch_id:min(self.batch_id + batch_size, len(self.data))]) batch_seqlen = (self.seqlen[self.batch_id:min(self.batch_id + batch_size, len(self.data))]) self.batch_id = min(self.batch_id + batch_size, len(self.data)) return batch_data, batch_labels, batch_seqlen
第四种方式:
def batch_iter(sourceData, batch_size, num_epochs, shuffle=True): data = np.array(sourceData) # 将sourceData转换为array存储 data_size = len(sourceData) num_batches_per_epoch = int(len(sourceData) / batch_size) + 1 for epoch in range(num_epochs): # Shuffle the data at each epoch if shuffle: shuffle_indices = np.random.permutation(np.arange(data_size)) shuffled_data = sourceData[shuffle_indices] else: shuffled_data = sourceData for batch_num in range(num_batches_per_epoch): start_index = batch_num * batch_size end_index = min((batch_num + 1) * batch_size, data_size) yield shuffled_data[start_index:end_index]
迭代器的用法,具体学习Python迭代器的用法
另外需要注意的是,前三种方式只是所有语料遍历一次,而最后一种方法是,所有语料遍历了num_epochs次
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持呐喊教程。
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