BERT

The BERT model was proposed in BERT: Pre-training of Deep Bidirectional Transformers for Language Understanding by Jacob Devlin, Ming-Wei Chang, Kenton Lee and Kristina Toutanova. It is a bidirectional transformer pre-trained using a combination of masked language modeling objective and next sentence prediction.

BertAdapterModel

class adapters.BertAdapterModel(config)

Bert Model transformer with the option to add multiple flexible heads on top.

This model inherits from [PreTrainedModel]. Check the superclass documentation for the generic methods the library implements for all its model (such as downloading or saving, resizing the input embeddings, pruning heads etc.)

This model is also a PyTorch [torch.nn.Module](https://pytorch.org/docs/stable/nn.html#torch.nn.Module) subclass. Use it as a regular PyTorch Module and refer to the PyTorch documentation for all matter related to general usage and behavior.

Parameters

config ([BertConfig]) – Model configuration class with all the parameters of the model. Initializing with a config file does not load the weights associated with the model, only the configuration. Check out the [~PreTrainedModel.from_pretrained] method to load the model weights.

property active_head

The active prediction head configuration of this model. Can be either the name of a single available head (string) or a list of multiple available heads. In case of a list of heads, the same base model is forwarded through all specified heads.

Returns

A string or a list of strings describing the active head configuration.

Return type

Union[str, List[str]]

adapter_summary(as_dict=False) → Union[str, dict]

Returns a string summary of all adapters currently added to the model. Each entry in the summary table has the following attributes:

  • name: the name of the adapter

  • architecture: the architectural base of the adapter

  • #param: the number of parameters of the adapter

  • %param: the number of parameters of the adapter relative to the full model

  • active: whether the adapter is active

  • train: whether the adapter weights are enabled for training

add_adapter(adapter_name: str, config=None, overwrite_ok: bool = False, set_active: bool = False)

Adds a new adapter module of the specified type to the model.

Parameters
  • adapter_name (str) – The name of the adapter module to be added.

  • config (str or dict, optional) –

    The adapter configuration, can be either:

    • the string identifier of a pre-defined configuration dictionary

    • a configuration dictionary specifying the full config

    • if not given, the default configuration for this adapter type will be used

  • overwrite_ok (bool, optional) – Overwrite an adapter with the same name if it exists. By default (False), an exception is thrown.

  • set_active (bool, optional) – Set the adapter to be the active one. By default (False), the adapter is added but not activated.

If self.base_model is self, must inherit from a class that implements this method, to preclude infinite recursion

add_adapter_fusion(adapter_names: Union[adapters.composition.Fuse, list, str], config=None, overwrite_ok: bool = False, set_active: bool = False)

Adds AdapterFusion to the model with alll the necessary configurations and weight initializations

Parameters
  • adapter_names (Fuse or list or str) –

    AdapterFusion layer to add. Can be either:

    • a Fuse composition block

    • a list of adapter names to fuse

    • a comma-separated string of adapter names to fuse

  • config (str or dict) –

    adapter fusion configuration, can be either:

    • a string identifying a pre-defined adapter fusion configuration

    • a dictionary representing the adapter fusion configuration

    • the path to a file containing the adapter fusion configuration

  • overwrite_ok (bool, optional) – Overwrite an AdapterFusion layer with the same name if it exists. By default (False), an exception is thrown.

  • set_active (bool, optional) – Activate the added AdapterFusion. By default (False), the AdapterFusion is added but not activated.

add_causal_lm_head(head_name, activation_function='gelu', overwrite_ok=False)

Adds a causal language modeling head on top of the model.

Parameters
  • head_name (str) – The name of the head.

  • activation_function (str, optional) – Activation function. Defaults to ‘gelu’.

  • overwrite_ok (bool, optional) – Force overwrite if a head with the same name exists. Defaults to False.

add_classification_head(head_name, num_labels=2, layers=2, activation_function='tanh', overwrite_ok=False, multilabel=False, id2label=None, use_pooler=False)

Adds a sequence classification head on top of the model.

Parameters
  • head_name (str) – The name of the head.

  • num_labels (int, optional) – Number of classification labels. Defaults to 2.

  • layers (int, optional) – Number of layers. Defaults to 2.

  • activation_function (str, optional) – Activation function. Defaults to ‘tanh’.

  • overwrite_ok (bool, optional) – Force overwrite if a head with the same name exists. Defaults to False.

  • multilabel (bool, optional) – Enable multilabel classification setup. Defaults to False.

add_dependency_parsing_head(head_name, num_labels=2, overwrite_ok=False, id2label=None)

Adds a biaffine dependency parsing head on top of the model. The parsing head uses the architecture described in “Is Supervised Syntactic Parsing Beneficial for Language Understanding? An Empirical Investigation” (Glavaš & Vulić, 2021) (https://arxiv.org/pdf/2008.06788.pdf).

Parameters
  • head_name (str) – The name of the head.

  • num_labels (int, optional) – Number of labels. Defaults to 2.

  • overwrite_ok (bool, optional) – Force overwrite if a head with the same name exists. Defaults to False.

  • id2label (dict, optional) – Mapping from label ids to labels. Defaults to None.

add_masked_lm_head(head_name, activation_function='gelu', overwrite_ok=False)

Adds a masked language modeling head on top of the model.

Parameters
  • head_name (str) – The name of the head.

  • activation_function (str, optional) – Activation function. Defaults to ‘gelu’.

  • overwrite_ok (bool, optional) – Force overwrite if a head with the same name exists. Defaults to False.

add_multiple_choice_head(head_name, num_choices=2, layers=2, activation_function='tanh', overwrite_ok=False, id2label=None, use_pooler=False)

Adds a multiple choice head on top of the model.

Parameters
  • head_name (str) – The name of the head.

  • num_choices (int, optional) – Number of choices. Defaults to 2.

  • layers (int, optional) – Number of layers. Defaults to 2.

  • activation_function (str, optional) – Activation function. Defaults to ‘tanh’.

  • overwrite_ok (bool, optional) – Force overwrite if a head with the same name exists. Defaults to False.

add_qa_head(head_name, num_labels=2, layers=1, activation_function='tanh', overwrite_ok=False, id2label=None)

Adds a question answering head on top of the model.

Parameters
  • head_name (str) – The name of the head.

  • num_labels (int, optional) – Number of classification labels. Defaults to 2.

  • layers (int, optional) – Number of layers. Defaults to 1.

  • activation_function (str, optional) – Activation function. Defaults to ‘tanh’.

  • overwrite_ok (bool, optional) – Force overwrite if a head with the same name exists. Defaults to False.

add_tagging_head(head_name, num_labels=2, layers=1, activation_function='tanh', overwrite_ok=False, id2label=None)

Adds a token classification head on top of the model.

Parameters
  • head_name (str) – The name of the head.

  • num_labels (int, optional) – Number of classification labels. Defaults to 2.

  • layers (int, optional) – Number of layers. Defaults to 1.

  • activation_function (str, optional) – Activation function. Defaults to ‘tanh’.

  • overwrite_ok (bool, optional) – Force overwrite if a head with the same name exists. Defaults to False.

apply_to_adapter_layers(fn)

Applies a function to all adapter layers of the model.

apply_to_basemodel_childs(fn)

Applies a function to all direct childs of the model if they are a instance of AdapterLayerBase.

average_adapter(adapter_name: str, adapter_list: List[str], weights: Optional[List[float]] = None, normalize_weights: bool = True, overwrite_ok: bool = False, set_active: bool = False)

Adds a new adapter module as weighted average of a set of existing adapter modules.

Parameters
  • adapter_name (str) – The name of the adapter module to be added.

  • input_adapters (List[str] or Dict[str, float]) – Specifies the existing adapters whose weights should be averaged. Can either be a list of adapter names or a dictionary mapping adapter names to weights.

  • overwrite_ok (bool, optional) – Overwrite an adapter with the same name if it exists. By default (False), an exception is thrown.

  • set_active (bool, optional) – Set the adapter to be the active one. By default (False), the adapter is added but not activated.

delete_adapter(adapter_name: str)

Deletes the adapter with the specified name from the model.

Parameters

adapter_name (str) – The name of the adapter.

delete_adapter_fusion(adapter_names: Union[adapters.composition.Fuse, list, str])

Deletes the AdapterFusion layer of the specified adapters.

Parameters

adapter_names (Union[Fuse, list, str]) – AdapterFusion layer to delete.

delete_head(head_name: str)

Deletes the prediction head with the specified name from the model.

Parameters

head_name (str) – The name of the prediction to delete.

eject_prefix_tuning(name: str)

Converts the prefix tuning with the given name from the reparameterized form into the flat form.

Parameters

name (str) – The name of the prefix tuning.

forward(input_ids=None, attention_mask=None, token_type_ids=None, position_ids=None, head_mask=None, inputs_embeds=None, output_attentions=None, output_hidden_states=None, return_dict=None, head=None, output_adapter_gating_scores=False, output_adapter_fusion_attentions=False, **kwargs)

The [BertAdapterModel] forward method, overrides the __call__ special method.

<Tip>

Although the recipe for forward pass needs to be defined within this function, one should call the [Module] instance afterwards instead of this since the former takes care of running the pre and post processing steps while the latter silently ignores them.

</Tip>

Parameters
  • input_ids (torch.LongTensor of shape (batch_size, sequence_length)) –

    Indices of input sequence tokens in the vocabulary.

    Indices can be obtained using [AutoTokenizer]. See [PreTrainedTokenizer.encode] and [PreTrainedTokenizer.__call__] for details.

    [What are input IDs?](../glossary#input-ids)

  • attention_mask (torch.FloatTensor of shape (batch_size, sequence_length), optional) –

    Mask to avoid performing attention on padding token indices. Mask values selected in [0, 1]:

    • 1 for tokens that are not masked,

    • 0 for tokens that are masked.

    [What are attention masks?](../glossary#attention-mask)

  • token_type_ids (torch.LongTensor of shape (batch_size, sequence_length), optional) –

    Segment token indices to indicate first and second portions of the inputs. Indices are selected in [0, 1]:

    • 0 corresponds to a sentence A token,

    • 1 corresponds to a sentence B token.

    [What are token type IDs?](../glossary#token-type-ids)

  • position_ids (torch.LongTensor of shape (batch_size, sequence_length), optional) –

    Indices of positions of each input sequence tokens in the position embeddings. Selected in the range [0, config.max_position_embeddings - 1].

    [What are position IDs?](../glossary#position-ids)

  • head_mask (torch.FloatTensor of shape (num_heads,) or (num_layers, num_heads), optional) –

    Mask to nullify selected heads of the self-attention modules. Mask values selected in [0, 1]:

    • 1 indicates the head is not masked,

    • 0 indicates the head is masked.

  • inputs_embeds (torch.FloatTensor of shape (batch_size, sequence_length, hidden_size), optional) – Optionally, instead of passing input_ids you can choose to directly pass an embedded representation. This is useful if you want more control over how to convert input_ids indices into associated vectors than the model’s internal embedding lookup matrix.

  • output_attentions (bool, optional) – Whether or not to return the attentions tensors of all attention layers. See attentions under returned tensors for more detail.

  • output_hidden_states (bool, optional) – Whether or not to return the hidden states of all layers. See hidden_states under returned tensors for more detail.

  • return_dict (bool, optional) – Whether or not to return a [~utils.ModelOutput] instead of a plain tuple.

forward_context(context: adapters.context.ForwardContext, *args, **kwargs)

This method is called by the ForwardContext at the beginning of the forward pass.

forward_head(all_outputs, head_name=None, cls_output=None, attention_mask=None, return_dict=False, context=None, **kwargs)

The forward pass through a prediction head configuration. There are three ways to specify the used prediction head configuration (in order of priority):

  1. If a head_name is passed, the head with the given name is used.

  2. If the forward call is executed within an AdapterSetup context, the head configuration is read from the context.

  3. If the active_head property is set, the head configuration is read from there.

Parameters
  • all_outputs (dict) – The outputs of the base model.

  • head_name (str, optional) – The name of the prediction head to use. If None, the active head is used.

  • cls_output (torch.Tensor, optional) – The classification output of the model.

  • attention_mask (torch.Tensor, optional) – The attention mask of the model.

  • return_dict (bool) – Whether or not to return a ModelOutput instead of a plain tuple.

  • get_cls_from_eos_tokens (bool) – If set to True, retrieve classifier token representations from the last <eos> token in the sequence. Setting to True requires eos_mask to be passed as well.

  • **kwargs – Additional keyword arguments passed to the forward pass of the head.

freeze_model(freeze=True)

Freezes all weights of the model.

get_adapter(name)

If self.base_model is self, must inherit from a class that implements this method, to preclude infinite recursion

get_labels(head_name=None)

Returns the labels the given head is assigning/predictin

Parameters
  • head_name – (str, optional) the name of the head which labels should be returned. Default is None.

  • the name is None the labels of the active head are returned (If) –

Returns: labels

get_labels_dict(head_name=None)

Returns the id2label dict for the given hea

Parameters
  • head_name – (str, optional) the name of the head which labels should be returned. Default is None.

  • the name is None the labels of the active head are returned (If) –

Returns: id2label

head_type()

Checks which head type the decorated function belongs to and raises an error if the model does not support the head type.

init_adapters(model_config, adapters_config, add_prefix_tuning_pool=True)

This method initializes adapter modules and fusion modules from the model config.

iter_layers() → Iterable[Tuple[int, torch.nn.modules.module.Module]]

Iterates over all layers of the model.

load_adapter(adapter_name_or_path: str, config: Union[dict, str] = None, version: str = None, model_name: str = None, load_as: str = None, source: str = None, with_head: bool = True, custom_weights_loaders: Optional[List[adapters.loading.WeightsLoader]] = None, leave_out: Optional[List[int]] = None, id2label=None, set_active: bool = False, **kwargs) → str

Loads a pre-trained pytorch adapter module from the local file system or a remote location.

Parameters
  • adapter_name_or_path (str) –

    can be either:

    • the identifier of a pre-trained task adapter to be loaded from Adapter Hub

    • a path to a directory containing adapter weights saved using model.saved_adapter()

    • a URL pointing to a zip folder containing a saved adapter module

  • config (dict or str, optional) – The requested configuration of the adapter. If not specified, will be either: - the default adapter config for the requested adapter if specified - the global default adapter config

  • version (str, optional) – The version of the adapter to be loaded.

  • model_name (str, optional) – The string identifier of the pre-trained model.

  • load_as (str, optional) – Load the adapter using this name. By default, the name with which the adapter was saved will be used.

  • source (str, optional) –

    Identifier of the source(s) from where to load the adapter. Can be:

    • ”ah” (default): search on AdapterHub.

    • ”hf”: search on HuggingFace model hub.

    • None: search on all sources

  • leave_out – Dynamically drop adapter modules in the specified Transformer layers when loading the adapter.

  • set_active (bool, optional) – Set the loaded adapter to be the active one. By default (False), the adapter is loaded but not activated.

Returns

The name with which the adapter was added to the model.

Return type

str

load_adapter_fusion(adapter_fusion_name_or_path: str, load_as: str = None, custom_weights_loaders: Optional[List[adapters.loading.WeightsLoader]] = None, set_active: bool = False, with_head: bool = True, **kwargs) → str

Loads a pre-trained AdapterFusion layer from the local file system.

Parameters
  • adapter_fusion_name_or_path (str) – a path to a directory containing AdapterFusion weights saved using model.save_adapter_fusion().

  • load_as (str, optional) – Load the AdapterFusion using this name. By default, the name with which the AdapterFusion layer was saved will be used.

  • set_active (bool, optional) – Activate the loaded AdapterFusion. By default (False), the AdapterFusion is loaded but not activated.

Returns

The name with which the AdapterFusion was added to the model.

Return type

str

merge_adapter(name: str)

Merges the weights of the given LoRA module with the Transformer weights as described in the paper.

Parameters

name (str) – LoRA module to merge.

push_adapter_to_hub(repo_name: str, adapter_name: str, organization: Optional[str] = None, adapterhub_tag: Optional[str] = None, datasets_tag: Optional[str] = None, local_path: Optional[str] = None, commit_message: Optional[str] = None, private: Optional[bool] = None, token: Optional[Union[bool, str]] = None, overwrite_adapter_card: bool = False, create_pr: bool = False, revision: str = None, commit_description: str = None, adapter_card_kwargs: Optional[dict] = None, **deprecated_kwargs)

Upload an adapter to HuggingFace’s Model Hub.

Parameters
  • repo_name (str) – The name of the repository on the model hub to upload to.

  • adapter_name (str) – The name of the adapter to be uploaded.

  • organization (str, optional) – Organization in which to push the adapter (you must be a member of this organization). Defaults to None.

  • adapterhub_tag (str, optional) – Tag of the format <task>/<subtask> for categorization on https://adapterhub.ml/explore/. See https://docs.adapterhub.ml/contributing.html#add-a-new-task-or-subtask for more. If not specified, datasets_tag must be given in case a new adapter card is generated. Defaults to None.

  • datasets_tag (str, optional) – Dataset identifier from https://huggingface.co/datasets. If not specified, adapterhub_tag must be given in case a new adapter card is generated. Defaults to None.

  • local_path (str, optional) – Local path used as clone directory of the adapter repository. If not specified, will create a temporary directory. Defaults to None.

  • commit_message (str, optional) – Message to commit while pushing. Will default to "add config", "add tokenizer" or "add model" depending on the type of the class.

  • private (bool, optional) – Whether or not the repository created should be private (requires a paying subscription).

  • token (bool or str, optional) – The token to use as HTTP bearer authorization for remote files. If True, will use the token generated when running huggingface-cli login (stored in ~/.huggingface). Will default to True if repo_url is not specified.

  • overwrite_adapter_card (bool, optional) – Overwrite an existing adapter card with a newly generated one. If set to False, will only generate an adapter card, if none exists. Defaults to False.

  • create_pr (bool, optional) – Whether or not to create a PR with the uploaded files or directly commit.

  • revision (str, optional) – Branch to push the uploaded files to.

  • commit_description (str, optional) – The description of the commit that will be created

Returns

The url of the adapter repository on the model hub.

Return type

str

reset_adapter()

Resets weights of a LoRA module merged using model.merge_adapter(name).

save_adapter(save_directory: str, adapter_name: str, with_head: bool = True, meta_dict: dict = None, custom_weights_loaders: Optional[List[adapters.loading.WeightsLoader]] = None)

Saves an adapter and its configuration file to a directory so that it can be shared or reloaded using load_adapter().

Parameters
  • save_directory (str) – Path to a directory where the adapter should be saved.

  • adapter_name (str) – Name of the adapter to be saved.

Raises

ValueError – If the given adapter name is invalid.

save_adapter_fusion(save_directory: str, adapter_names: Union[adapters.composition.Fuse, list, str], meta_dict: dict = None, custom_weights_loaders: Optional[List[adapters.loading.WeightsLoader]] = None, with_head: Union[bool, str] = False)

Saves an AdapterFusion layer and its configuration file to a directory so that it can be shared or reloaded using load_adapter_fusion().

Parameters
  • save_directory (str) – Path to a directory where the AdapterFusion should be saved.

  • adapter_names (Union[Fuse, list, str]) – AdapterFusion to be saved.

  • with_head (Union[bool, str]) – If True, will save a head with the same name as the AdapterFusionLayer. If a string, this will be used as the name of the head to be saved.

Raises

ValueError – If the given AdapterFusion name is invalid.

save_all_adapter_fusions(save_directory: str, meta_dict: dict = None, custom_weights_loaders: Optional[List[adapters.loading.WeightsLoader]] = None)

Saves all AdapterFusion layers of this model together with their configuration to subfolders of the given location.

Parameters

save_directory (str) – Path to a directory where the AdapterFusion layers should be saved.

save_all_adapters(save_directory: str, with_head: bool = True, meta_dict: dict = None, custom_weights_loaders: Optional[List[adapters.loading.WeightsLoader]] = None)

Saves all adapters of this model together with their configuration to subfolders of the given location.

Parameters

save_directory (str) – Path to a directory where the adapters should be saved.

set_active_adapters(adapter_setup: Union[list, adapters.composition.AdapterCompositionBlock], skip_layers: Optional[List[int]] = None)

Sets the adapter modules to be used by default in every forward pass. This setting can be overriden by passing the adapter_names parameter in the foward() pass. If no adapter with the given name is found, no module of the respective type will be activated. In case the calling model class supports named prediction heads, this method will attempt to activate a prediction head with the name of the last adapter in the list of passed adapter names.

Parameters

adapter_setup (list) – The list of adapters to be activated by default. Can be a fusion or stacking configuration.

tie_weights()

Tie the weights between the input embeddings and the output embeddings.

If the torchscript flag is set in the configuration, can’t handle parameter sharing so we are cloning the weights instead.

train_adapter(adapter_setup: Union[list, adapters.composition.AdapterCompositionBlock], train_embeddings=False)

Sets the model into mode for training the given adapters. If self.base_model is self, must inherit from a class that implements this method, to preclude infinite recursion

train_adapter_fusion(adapter_setup: Union[list, adapters.composition.AdapterCompositionBlock], unfreeze_adapters=False)

Sets the model into mode for training of adapter fusion determined by a list of adapter names. If self.base_model is self, must inherit from a class that implements this method, to preclude infinite recursion

train_fusion(adapter_setup: Union[list, adapters.composition.AdapterCompositionBlock], unfreeze_adapters=False)

Sets the model into mode for training of adapter fusion determined by a list of adapter names.