Source code for transformers4rec.config.transformer

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# Copyright (c) 2021, NVIDIA CORPORATION.
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# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
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#     http://www.apache.org/licenses/LICENSE-2.0
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# Unless required by applicable law or agreed to in writing, software
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import transformers

from merlin_standard_lib import Registry

try:
    import tensorflow as tf
except ImportError:
    tf = None

transformer_registry: Registry = Registry("transformers")


[docs]class T4RecConfig:
[docs] def to_huggingface_torch_model(self): model_cls = transformers.MODEL_MAPPING[self.transformers_config_cls] return model_cls(self)
[docs] def to_torch_model( self, input_features, *prediction_task, task_blocks=None, task_weights=None, loss_reduction="mean", **kwargs ): from .. import torch as torch4rec if not isinstance(input_features, torch4rec.TabularSequenceFeatures): raise ValueError("`input_features` must an instance of SequentialTabularFeatures") if not all(isinstance(t, torch4rec.PredictionTask) for t in prediction_task): raise ValueError( "`task` is of the wrong type, please provide one or multiple " "instance(s) of PredictionTask" ) body = torch4rec.SequentialBlock( input_features, torch4rec.TransformerBlock(self, masking=input_features.masking) ) return torch4rec.Head( body, *prediction_task, task_blocks=task_blocks, task_weights=task_weights, loss_reduction=loss_reduction, ).to_model(**kwargs)
if tf:
[docs] def to_tf_model( self, input_features, *prediction_task, task_blocks=None, task_weights=None, loss_reduction=tf.reduce_mean, **kwargs ): from .. import tf as tf4rec if not isinstance(input_features, tf4rec.TabularSequenceFeatures): raise ValueError("`input_features` must an instance of SequentialTabularFeatures") if not all(isinstance(t, tf4rec.PredictionTask) for t in prediction_task): raise ValueError( "`task` is of the wrong type, please provide one or multiple " "instance(s) of PredictionTask" ) body = tf4rec.SequentialBlock( [input_features, tf4rec.TransformerBlock(self, masking=input_features.masking)] ) return tf4rec.Model( tf4rec.Head( body, *prediction_task, task_blocks=task_blocks, task_weights=task_weights, loss_reduction=loss_reduction, inputs=input_features, ), **kwargs, )
[docs] def to_huggingface_tf_model(self): model_cls = transformers.TF_MODEL_MAPPING[self.transformers_config_cls] return model_cls(self)
@property def transformers_config_cls(self): return self.__class__.__bases__[1]
[docs] @classmethod def build(cls, *args, **kwargs): raise NotImplementedError
[docs]@transformer_registry.register("reformer") class ReformerConfig(T4RecConfig, transformers.ReformerConfig):
[docs] @classmethod def build( cls, d_model, n_head, n_layer, total_seq_length, hidden_act="gelu", initializer_range=0.01, layer_norm_eps=0.03, dropout=0.3, pad_token=0, log_attention_weights=False, axial_pos_shape_first_dim=4, **kwargs ): return cls( hidden_size=d_model, attention_head_size=d_model, attn_layers=["local", "lsh"] * (n_layer // 2) if n_layer > 2 else ["local"], num_hidden_layers=n_layer, feed_forward_size=d_model * 4, num_attention_heads=n_head, hidden_act=hidden_act, initializer_range=initializer_range, layer_norm_eps=layer_norm_eps, hidden_dropout_prob=dropout, lsh_attention_probs_dropout_prob=dropout, pad_token_id=pad_token, output_attentions=log_attention_weights, max_position_embeddings=total_seq_length, axial_pos_embds_dim=[ d_model // 2, d_model // 2, ], axial_pos_shape=[ axial_pos_shape_first_dim, total_seq_length // axial_pos_shape_first_dim, ], vocab_size=1, **kwargs, )
[docs]@transformer_registry.register("gtp2") class GPT2Config(T4RecConfig, transformers.GPT2Config):
[docs] @classmethod def build( cls, d_model, n_head, n_layer, total_seq_length, hidden_act="gelu", initializer_range=0.01, layer_norm_eps=0.03, dropout=0.3, pad_token=0, log_attention_weights=False, **kwargs ): return cls( n_embd=d_model, n_inner=d_model * 4, n_layer=n_layer, n_head=n_head, activation_function=hidden_act, initializer_range=initializer_range, layer_norm_eps=layer_norm_eps, resid_pdrop=dropout, embd_pdrop=dropout, attn_pdrop=dropout, n_positions=total_seq_length, n_ctx=total_seq_length, output_attentions=log_attention_weights, vocab_size=1, **kwargs, )
[docs]@transformer_registry.register("longformer") class LongformerConfig(T4RecConfig, transformers.LongformerConfig):
[docs] @classmethod def build( cls, d_model, n_head, n_layer, total_seq_length, hidden_act="gelu", initializer_range=0.01, layer_norm_eps=0.03, dropout=0.3, pad_token=0, log_attention_weights=False, **kwargs ): return cls( hidden_size=d_model, num_hidden_layers=n_layer, num_attention_heads=n_head, hidden_act=hidden_act, attention_window=total_seq_length, initializer_range=initializer_range, layer_norm_eps=layer_norm_eps, dropout=dropout, pad_token_id=pad_token, output_attentions=log_attention_weights, vocab_size=1, **kwargs, )
[docs]@transformer_registry.register("electra") class ElectraConfig(T4RecConfig, transformers.ElectraConfig):
[docs] @classmethod def build( cls, d_model, n_head, n_layer, total_seq_length, hidden_act="gelu", initializer_range=0.01, layer_norm_eps=0.03, dropout=0.3, pad_token=0, log_attention_weights=False, **kwargs ): return cls( hidden_size=d_model, embedding_size=d_model, num_hidden_layers=n_layer, num_attention_heads=n_head, intermediate_size=d_model * 4, hidden_act=hidden_act, initializer_range=initializer_range, layer_norm_eps=layer_norm_eps, hidden_dropout_prob=dropout, max_position_embeddings=total_seq_length, pad_token_id=pad_token, output_attentions=log_attention_weights, vocab_size=1, **kwargs, )
[docs]@transformer_registry.register("albert") class AlbertConfig(T4RecConfig, transformers.AlbertConfig):
[docs] @classmethod def build( cls, d_model, n_head, n_layer, total_seq_length, hidden_act="gelu", initializer_range=0.01, layer_norm_eps=0.03, dropout=0.3, pad_token=0, log_attention_weights=False, **kwargs ): return cls( hidden_size=d_model, num_attention_heads=n_head, num_hidden_layers=n_layer, hidden_act=hidden_act, intermediate_size=d_model * 4, hidden_dropout_prob=dropout, attention_probs_dropout_prob=dropout, max_position_embeddings=total_seq_length, embedding_size=d_model, # should be same as dimension of the input to ALBERT initializer_range=initializer_range, layer_norm_eps=layer_norm_eps, output_attentions=log_attention_weights, vocab_size=1, **kwargs, )
[docs]@transformer_registry.register("xlnet") class XLNetConfig(T4RecConfig, transformers.XLNetConfig):
[docs] @classmethod def build( cls, d_model, n_head, n_layer, total_seq_length=None, attn_type="bi", hidden_act="gelu", initializer_range=0.01, layer_norm_eps=0.03, dropout=0.3, pad_token=0, log_attention_weights=False, mem_len=1, **kwargs ): return cls( d_model=d_model, d_inner=d_model * 4, n_layer=n_layer, n_head=n_head, attn_type=attn_type, ff_activation=hidden_act, initializer_range=initializer_range, layer_norm_eps=layer_norm_eps, dropout=dropout, pad_token_id=pad_token, output_attentions=log_attention_weights, vocab_size=1, mem_len=mem_len, **kwargs, )
[docs]@transformer_registry.register("bert") class BertConfig(T4RecConfig, transformers.BertConfig):
[docs] @classmethod def build( cls, d_model, n_head, n_layer, total_seq_length, hidden_act="gelu", initializer_range=0.01, layer_norm_eps=0.03, dropout=0.3, pad_token=0, log_attention_weights=False, **kwargs ): return cls( hidden_size=d_model, num_hidden_layers=n_layer, num_attention_heads=n_head, hidden_act=hidden_act, initializer_range=initializer_range, layer_norm_eps=layer_norm_eps, dropout=dropout, pad_token_id=pad_token, output_attentions=log_attention_weights, vocab_size=1, **kwargs, )
[docs]@transformer_registry.register("roberta") class RobertaConfig(T4RecConfig, transformers.RobertaConfig):
[docs] @classmethod def build( cls, d_model, n_head, n_layer, total_seq_length, hidden_act="gelu", initializer_range=0.01, layer_norm_eps=0.03, dropout=0.3, pad_token=0, log_attention_weights=False, **kwargs ): return cls( hidden_size=d_model, num_hidden_layers=n_layer, num_attention_heads=n_head, hidden_act=hidden_act, initializer_range=initializer_range, layer_norm_eps=layer_norm_eps, dropout=dropout, pad_token_id=pad_token, output_attentions=log_attention_weights, vocab_size=1, **kwargs, )
[docs]@transformer_registry.register("transfo-xl") class TransfoXLConfig(T4RecConfig, transformers.TransfoXLConfig):
[docs] @classmethod def build( cls, d_model, n_head, n_layer, total_seq_length, hidden_act="gelu", initializer_range=0.01, layer_norm_eps=0.03, dropout=0.3, pad_token=0, log_attention_weights=False, **kwargs ): return cls( d_model=d_model, d_embed=d_model, n_layer=n_layer, n_head=n_head, d_inner=d_model * 4, hidden_act=hidden_act, untie_r=True, attn_type=0, initializer_range=initializer_range, layer_norm_eps=layer_norm_eps, dropout=dropout, pad_token_id=pad_token, output_attentions=log_attention_weights, vocab_size=1, # As the input_embeds will be fed in the forward function, limits the memory reserved by the internal input embedding table, which will not be used mem_len=1, # We do not use mems, because we feed the full sequence to the Transformer models and not sliding segments (which is useful for the long sequences in NLP. As setting mem_len to 0 leads to NaN in loss, we set it to one, to minimize the computing overhead) div_val=1, # Disables adaptative input (embeddings), because the embeddings are managed by TabularFeatures **kwargs, )