Exemple #1
0
    def model_fn(features, labels, mode, params):  # pylint: disable=unused-argument
        """The `model_fn` for TPUEstimator."""

        tf.logging.info("*** Features ***")
        for name in sorted(features.keys()):
            tf.logging.info("  name = %s, shape = %s" %
                            (name, features[name].shape))

        input_ids0 = features["input_ids0"]
        input_mask0 = features["input_mask0"]
        segment_ids0 = features["segment_ids0"]
        input_ids1 = features["input_ids1"]
        input_mask1 = features["input_mask1"]
        segment_ids1 = features["segment_ids1"]
        input_ids2 = features["input_ids2"]
        input_mask2 = features["input_mask2"]
        segment_ids2 = features["segment_ids2"]
        label_ids = features["label_ids"]

        is_training = (mode == tf.estimator.ModeKeys.TRAIN)

        (total_loss, per_example_loss, logits, probabilities) = create_model(
            bert_config, is_training, input_ids0, input_mask0, segment_ids0,
            input_ids1, input_mask1, segment_ids1, input_ids2, input_mask2,
            segment_ids2, label_ids, num_labels, use_one_hot_embeddings)

        tvars = tf.trainable_variables()
        initialized_variable_names = {}
        scaffold_fn = None
        if init_checkpoint:
            (assignment_map, initialized_variable_names
             ) = modeling.get_assignment_map_from_checkpoint(
                 tvars, init_checkpoint)
            if use_tpu:

                def tpu_scaffold():
                    tf.train.init_from_checkpoint(init_checkpoint,
                                                  assignment_map)
                    return tf.train.Scaffold()

                scaffold_fn = tpu_scaffold
            else:
                tf.train.init_from_checkpoint(init_checkpoint, assignment_map)

        tf.logging.info("**** Trainable Variables ****")
        for var in tvars:
            init_string = ""
            if var.name in initialized_variable_names:
                init_string = ", *INIT_FROM_CKPT*"
            tf.logging.info("  name = %s, shape = %s%s", var.name, var.shape,
                            init_string)

        output_spec = None
        if mode == tf.estimator.ModeKeys.TRAIN:

            train_op = optimization.create_optimizer(total_loss, learning_rate,
                                                     num_train_steps,
                                                     num_warmup_steps, use_tpu)

            output_spec = tf.contrib.tpu.TPUEstimatorSpec(
                mode=mode,
                loss=total_loss,
                train_op=train_op,
                scaffold_fn=scaffold_fn)
        elif mode == tf.estimator.ModeKeys.EVAL:

            def metric_fn(per_example_loss, label_ids, logits):
                predictions = tf.argmax(logits, axis=-1, output_type=tf.int32)
                accuracy = tf.metrics.accuracy(label_ids, predictions)
                loss = tf.metrics.mean(per_example_loss)
                return {
                    "eval_accuracy": accuracy,
                    "eval_loss": loss,
                }

            eval_metrics = (metric_fn, [per_example_loss, label_ids, logits])
            output_spec = tf.contrib.tpu.TPUEstimatorSpec(
                mode=mode,
                loss=total_loss,
                eval_metrics=eval_metrics,
                scaffold_fn=scaffold_fn)
        else:
            output_spec = tf.contrib.tpu.TPUEstimatorSpec(
                mode=mode, predictions=probabilities, scaffold_fn=scaffold_fn)
        return output_spec
Exemple #2
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    def model_fn(features, labels, mode, params):  # pylint: disable=unused-argument
        """The `model_fn` for TPUEstimator."""

        tf.logging.info("*** Features ***")
        for name in sorted(features.keys()):
            tf.logging.info("  name = %s, shape = %s" %
                            (name, features[name].shape))

        input_ids = features["input_ids"]
        input_mask = features["input_mask"]
        segment_ids = features["segment_ids"]
        masked_lm_positions = features["masked_lm_positions"]
        masked_lm_ids = features["masked_lm_ids"]
        masked_lm_weights = features["masked_lm_weights"]
        next_sentence_labels = features["next_sentence_labels"]

        is_training = (mode == tf.estimator.ModeKeys.TRAIN)

        model = modeling.BertModel(
            config=bert_config,
            is_training=is_training,
            input_ids=input_ids,
            input_mask=input_mask,
            token_type_ids=segment_ids,
            use_one_hot_embeddings=use_one_hot_embeddings)

        (masked_lm_loss, masked_lm_example_loss,
         masked_lm_log_probs) = get_masked_lm_output(
             bert_config, model.get_sequence_output(),
             model.get_embedding_table(), masked_lm_positions, masked_lm_ids,
             masked_lm_weights)

        (next_sentence_loss, next_sentence_example_loss,
         next_sentence_log_probs) = get_next_sentence_output(
             bert_config, model.get_pooled_output(), next_sentence_labels)

        total_loss = masked_lm_loss + next_sentence_loss

        tvars = tf.trainable_variables()

        initialized_variable_names = {}
        scaffold_fn = None
        if init_checkpoint:
            (assignment_map, initialized_variable_names
             ) = modeling.get_assignment_map_from_checkpoint(
                 tvars, init_checkpoint)
            if use_tpu:

                def tpu_scaffold():
                    tf.train.init_from_checkpoint(init_checkpoint,
                                                  assignment_map)
                    return tf.train.Scaffold()

                scaffold_fn = tpu_scaffold
            else:
                tf.train.init_from_checkpoint(init_checkpoint, assignment_map)

        tf.logging.info("**** Trainable Variables ****")
        for var in tvars:
            init_string = ""
            if var.name in initialized_variable_names:
                init_string = ", *INIT_FROM_CKPT*"
            tf.logging.info("  name = %s, shape = %s%s", var.name, var.shape,
                            init_string)

        output_spec = None
        if mode == tf.estimator.ModeKeys.TRAIN:
            train_op = optimization.create_optimizer(total_loss, learning_rate,
                                                     num_train_steps,
                                                     num_warmup_steps, use_tpu)

            output_spec = tf.contrib.tpu.TPUEstimatorSpec(
                mode=mode,
                loss=total_loss,
                train_op=train_op,
                scaffold_fn=scaffold_fn)
        elif mode == tf.estimator.ModeKeys.EVAL:

            def metric_fn(masked_lm_example_loss, masked_lm_log_probs,
                          masked_lm_ids, masked_lm_weights,
                          next_sentence_example_loss, next_sentence_log_probs,
                          next_sentence_labels):
                """Computes the loss and accuracy of the model."""
                masked_lm_log_probs = tf.reshape(
                    masked_lm_log_probs, [-1, masked_lm_log_probs.shape[-1]])
                masked_lm_predictions = tf.argmax(masked_lm_log_probs,
                                                  axis=-1,
                                                  output_type=tf.int32)
                masked_lm_example_loss = tf.reshape(masked_lm_example_loss,
                                                    [-1])
                masked_lm_ids = tf.reshape(masked_lm_ids, [-1])
                masked_lm_weights = tf.reshape(masked_lm_weights, [-1])
                masked_lm_accuracy = tf.metrics.accuracy(
                    labels=masked_lm_ids,
                    predictions=masked_lm_predictions,
                    weights=masked_lm_weights)
                masked_lm_mean_loss = tf.metrics.mean(
                    values=masked_lm_example_loss, weights=masked_lm_weights)

                next_sentence_log_probs = tf.reshape(
                    next_sentence_log_probs,
                    [-1, next_sentence_log_probs.shape[-1]])
                next_sentence_predictions = tf.argmax(next_sentence_log_probs,
                                                      axis=-1,
                                                      output_type=tf.int32)
                next_sentence_labels = tf.reshape(next_sentence_labels, [-1])
                next_sentence_accuracy = tf.metrics.accuracy(
                    labels=next_sentence_labels,
                    predictions=next_sentence_predictions)
                next_sentence_mean_loss = tf.metrics.mean(
                    values=next_sentence_example_loss)

                return {
                    "masked_lm_accuracy": masked_lm_accuracy,
                    "masked_lm_loss": masked_lm_mean_loss,
                    "next_sentence_accuracy": next_sentence_accuracy,
                    "next_sentence_loss": next_sentence_mean_loss,
                }

            eval_metrics = (metric_fn, [
                masked_lm_example_loss, masked_lm_log_probs, masked_lm_ids,
                masked_lm_weights, next_sentence_example_loss,
                next_sentence_log_probs, next_sentence_labels
            ])
            output_spec = tf.contrib.tpu.TPUEstimatorSpec(
                mode=mode,
                loss=total_loss,
                eval_metrics=eval_metrics,
                scaffold_fn=scaffold_fn)
        else:
            raise ValueError("Only TRAIN and EVAL modes are supported: %s" %
                             (mode))

        return output_spec
Exemple #3
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  def model_fn(features, labels, mode, params):  # pylint: disable=unused-argument
    """The `model_fn` for TPUEstimator."""

    tf.logging.info("*** Features ***")
    for name in sorted(features.keys()):
      tf.logging.info("  name = %s, shape = %s" % (name, features[name].shape))

    input_ids = features["input_ids"]
    input_mask = features["input_mask"]
    segment_ids = features["segment_ids"]
    label_ids = features["label_ids"]

    is_training = (mode == tf.estimator.ModeKeys.TRAIN)

    (total_loss, per_example_loss, logits) = create_model(
        bert_config, is_training, input_ids, input_mask, segment_ids, label_ids,
        use_one_hot_embeddings)

    tvars = tf.trainable_variables()
    initialized_variable_names = {}
    scaffold_fn = None
    if init_checkpoint:
      (assignment_map, initialized_variable_names
      ) = modeling.get_assignment_map_from_checkpoint(tvars, init_checkpoint)
      if use_tpu:

        def tpu_scaffold():
          tf.train.init_from_checkpoint(init_checkpoint, assignment_map)
          return tf.train.Scaffold()

        scaffold_fn = tpu_scaffold
      else:
        tf.train.init_from_checkpoint(init_checkpoint, assignment_map)

    tf.logging.info("**** Trainable Variables ****")
    for var in tvars:
      init_string = ""
      if var.name in initialized_variable_names:
        init_string = ", *INIT_FROM_CKPT*"
      tf.logging.info("  name = %s, shape = %s%s", var.name, var.shape,
                      init_string)

    output_spec = None
    if mode == tf.estimator.ModeKeys.TRAIN:

      train_op = optimization.create_optimizer(
          total_loss, learning_rate, num_train_steps, num_warmup_steps, use_tpu)

      output_spec = tf.contrib.tpu.TPUEstimatorSpec(
          mode=mode,
          loss=total_loss,
          train_op=train_op,
          scaffold_fn=scaffold_fn)
    elif mode == tf.estimator.ModeKeys.EVAL:

      def metric_fn(per_example_loss, label_ids, logits):
        # Display labels and predictions
        concat1 = tf.contrib.metrics.streaming_concat(logits)
        concat2 = tf.contrib.metrics.streaming_concat(label_ids)

        # Compute Pearson correlation
        pearson = tf.contrib.metrics.streaming_pearson_correlation(logits, label_ids)

        # Compute MSE
        # mse = tf.metrics.mean(per_example_loss)
        mse = tf.metrics.mean_squared_error(label_ids, logits)

        # Compute Spearman correlation
        size = tf.size(logits)
        indice_of_ranks_pred = tf.nn.top_k(logits, k=size)[1]
        indice_of_ranks_label = tf.nn.top_k(label_ids, k=size)[1]
        rank_pred = tf.nn.top_k(-indice_of_ranks_pred, k=size)[1]
        rank_label = tf.nn.top_k(-indice_of_ranks_label, k=size)[1]
        rank_pred = tf.to_float(rank_pred)
        rank_label = tf.to_float(rank_label)
        spearman = tf.contrib.metrics.streaming_pearson_correlation(rank_pred, rank_label)

        return {'pred': concat1, 'label_ids': concat2, 'pearson': pearson, 'spearman': spearman, 'MSE': mse}

      eval_metrics = (metric_fn, [per_example_loss, label_ids, logits])
      output_spec = tf.contrib.tpu.TPUEstimatorSpec(
          mode=mode,
          loss=total_loss,
          eval_metrics=eval_metrics,
          scaffold_fn=scaffold_fn)
    else:
      output_spec = tf.contrib.tpu.TPUEstimatorSpec(
          mode=mode, predictions=logits, scaffold_fn=scaffold_fn)
    return output_spec