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@ -344,3 +344,171 @@ def embedding_lookup(input_ids,
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#### 位置编码
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~~~python
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class BertModel(object):
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"""BERT model ("Bidirectional Encoder Representations from Transformers").
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Example usage:
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```python
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# Already been converted into WordPiece token ids
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input_ids = tf.constant([[31, 51, 99], [15, 5, 0]])
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input_mask = tf.constant([[1, 1, 1], [1, 1, 0]])
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token_type_ids = tf.constant([[0, 0, 1], [0, 2, 0]])
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config = modeling.BertConfig(vocab_size=32000, hidden_size=512,
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num_hidden_layers=8, num_attention_heads=6, intermediate_size=1024)
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model = modeling.BertModel(config=config, is_training=True,
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input_ids=input_ids, input_mask=input_mask, token_type_ids=token_type_ids)
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label_embeddings = tf.get_variable(...)
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pooled_output = model.get_pooled_output()
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logits = tf.matmul(pooled_output, label_embeddings)
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...
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```
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"""
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def __init__(self,
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config,
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is_training,
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input_ids,
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input_mask=None,
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token_type_ids=None,
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use_one_hot_embeddings=False,
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scope=None):
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"""Constructor for BertModel.
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Args:
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config: `BertConfig` instance.
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is_training: bool. true for training model, false for eval model. Controls
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whether dropout will be applied.
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input_ids: int32 Tensor of shape [batch_size, seq_length].
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input_mask: (optional) int32 Tensor of shape [batch_size, seq_length].
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token_type_ids: (optional) int32 Tensor of shape [batch_size, seq_length].
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use_one_hot_embeddings: (optional) bool. Whether to use one-hot word
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embeddings or tf.embedding_lookup() for the word embeddings.
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scope: (optional) variable scope. Defaults to "bert".
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Raises:
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ValueError: The config is invalid or one of the input tensor shapes
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is invalid.
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"""
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...
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# Add positional embeddings and token type embeddings, then layer
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# normalize and perform dropout.
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self.embedding_output = embedding_postprocessor( # 制作位置编码,ctrl点击embedding_postprocessor
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input_tensor=self.embedding_output,
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use_token_type=True,
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token_type_ids=token_type_ids,
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token_type_vocab_size=config.type_vocab_size,
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token_type_embedding_name="token_type_embeddings",
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use_position_embeddings=True,
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position_embedding_name="position_embeddings",
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initializer_range=config.initializer_range,
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max_position_embeddings=config.max_position_embeddings,
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dropout_prob=config.hidden_dropout_prob)
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~~~
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~~~python
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def embedding_postprocessor(input_tensor,
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use_token_type=False,
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token_type_ids=None,
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token_type_vocab_size=16,
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token_type_embedding_name="token_type_embeddings",
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use_position_embeddings=True,
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position_embedding_name="position_embeddings",
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initializer_range=0.02,
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max_position_embeddings=512,
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dropout_prob=0.1):
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"""Performs various post-processing on a word embedding tensor.
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Args:
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input_tensor: float Tensor of shape [batch_size, seq_length,
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embedding_size].
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use_token_type: bool. Whether to add embeddings for `token_type_ids`.
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token_type_ids: (optional) int32 Tensor of shape [batch_size, seq_length].
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Must be specified if `use_token_type` is True.
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token_type_vocab_size: int. The vocabulary size of `token_type_ids`.
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token_type_embedding_name: string. The name of the embedding table variable
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for token type ids.
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use_position_embeddings: bool. Whether to add position embeddings for the
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position of each token in the sequence.
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position_embedding_name: string. The name of the embedding table variable
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for positional embeddings.
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initializer_range: float. Range of the weight initialization.
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max_position_embeddings: int. Maximum sequence length that might ever be
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used with this model. This can be longer than the sequence length of
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input_tensor, but cannot be shorter.
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dropout_prob: float. Dropout probability applied to the final output tensor.
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Returns:
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float tensor with same shape as `input_tensor`.
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Raises:
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ValueError: One of the tensor shapes or input values is invalid.
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"""
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input_shape = get_shape_list(input_tensor, expected_rank=3)
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batch_size = input_shape[0]
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seq_length = input_shape[1]
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width = input_shape[2]
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output = input_tensor
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if use_token_type: # 判断是第一句还是第二句,再做相应处理
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if token_type_ids is None:
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raise ValueError("`token_type_ids` must be specified if"
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"`use_token_type` is True.")
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token_type_table = tf.get_variable(
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name=token_type_embedding_name,
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shape=[token_type_vocab_size, width],
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initializer=create_initializer(initializer_range))
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# This vocab will be small so we always do one-hot here, since it is always
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# faster for a small vocabulary.
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flat_token_type_ids = tf.reshape(token_type_ids, [-1])
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one_hot_ids = tf.one_hot(flat_token_type_ids, depth=token_type_vocab_size)
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token_type_embeddings = tf.matmul(one_hot_ids, token_type_table)
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token_type_embeddings = tf.reshape(token_type_embeddings,
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[batch_size, seq_length, width])
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output += token_type_embeddings
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if use_position_embeddings: # 判断是否要做位置编码信息
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assert_op = tf.assert_less_equal(seq_length, max_position_embeddings)
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with tf.control_dependencies([assert_op]):
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full_position_embeddings = tf.get_variable(
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name=position_embedding_name,
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shape=[max_position_embeddings, width],
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initializer=create_initializer(initializer_range))
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# Since the position embedding table is a learned variable, we create it
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# using a (long) sequence length `max_position_embeddings`. The actual
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# sequence length might be shorter than this, for faster training of
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# tasks that do not have long sequences.
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#
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# So `full_position_embeddings` is effectively an embedding table
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# for position [0, 1, 2, ..., max_position_embeddings-1], and the current
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# sequence has positions [0, 1, 2, ... seq_length-1], so we can just
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# perform a slice.
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position_embeddings = tf.slice(full_position_embeddings, [0, 0],
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[seq_length, -1]) # 如果位置编码给的过大,为了加速只需取出部分
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num_dims = len(output.shape.as_list())
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# Only the last two dimensions are relevant (`seq_length` and `width`), so
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# we broadcast among the first dimensions, which is typically just
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# the batch size.
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position_broadcast_shape = []
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for _ in range(num_dims - 2):
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position_broadcast_shape.append(1)
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position_broadcast_shape.extend([seq_length, width])
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position_embeddings = tf.reshape(position_embeddings,
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position_broadcast_shape)
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output += position_embeddings
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output = layer_norm_and_dropout(output, dropout_prob)
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return output
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~~~
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benjas
5 years ago