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Example: ```python >>> from transformers import AutoProcessor, HubertModel >>> from datasets import load_dataset >>> import soundfile as sf >>> processor = AutoProcessor.from_pretrained("facebook/hubert-large-ls960-ft") >>> model = HubertModel.from_pretrained("facebook/hubert-large-ls960-ft") >>> def map_to_array(batch): ... speech, _ = sf.read(batch["file"]) ... batch["speech"] = speech ... return batch >>> ds = load_dataset("hf-internal-testing/librispeech_asr_dummy", "clean", split="validation") >>> ds = ds.map(map_to_array) >>> input_values = processor(ds["speech"][0], return_tensors="pt").input_values # Batch size 1 >>> hidden_states = model(input_values).last_hidden_state ```Nrr)r<rrrrrr)r5rruse_return_dictr5r;rrr6r=r:r r=r) r4rtrr<rrrZextract_featuresr=Zencoder_outputsr8r8r9r>s2&   zHubertModel.forwardrNNNNN)r@rArBrr"rrrrr=rrrrrr r>rCr8r8r6r9rWs@ . rzn Hubert Model with a `language modeling` head on top for Connectionist Temporal Classification (CTC). )Z custom_introcseZdZddeeffdd ZddZddZd d Zd d Z e     dd ee j dee j dee dee dee dee j deeeffddZZS) HubertForCTCN target_langcs~t|t||_t|j|_||_|j dur#t d|j dt |dr.|j r.|jn|j}t||j |_|dS)a0 target_lang (`str`, *optional*): Language id of adapter weights. 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NrzCannot pass `target_lang`: z- if `config.adapter_attn_dim` is not defined.z)By default `target_lang` is set to 'eng'.T)Z force_load)rBrr5rfrinfoZ load_adapter)r4rBr8r8r9 tie_weights s zHubertForCTC.tie_weightscCtdt|dS) Calling this function will disable the gradient computation for the feature encoder so that its parameter will not be updated during training. The method `freeze_feature_extractor` is deprecated and will be removed in Transformers v5. Please use the equivalent `freeze_feature_encoder` method instead.Nwarningswarn FutureWarningfreeze_feature_encoderr4r8r8r9freeze_feature_extractor  z%HubertForCTC.freeze_feature_extractorcC|jjdSrJNrr5rprQr8r8r9rP*z#HubertForCTC.freeze_feature_encodercC|jD]}d|_qdSz Calling this function will disable the gradient computation for the base model so that its parameters will not be updated during training. Only the classification head will be updated. FNrrlrmrnr8r8r9freeze_base_model1zHubertForCTC.freeze_base_modelrtrrrrlabelsrc Cs||dur|n|jj}|dur||jjkrtd|jj|j|||||d}|d}||}||} d} |dur|durC|ntj |tj d}| | d tj } |dk} | d} || }tjj| dtjddd}tjjjd d tjj||| | |jj|jj|jjd } Wdn1swY|s| f|td}| dur| f|S|St| | |j|jd S) a labels (`torch.LongTensor` of shape `(batch_size, target_length)`, *optional*): Labels for connectionist temporal classification. Note that `target_length` has to be smaller or equal to the sequence length of the output logits. Indices are selected in `[-100, 0, ..., config.vocab_size - 1]`. All labels set to `-100` are ignored (masked), the loss is only computed for labels in `[0, ..., config.vocab_size - 1]`. Nz$Label values must be <= vocab_size: r>rrrY)rrrF)enabled)blankZ reductionZ zero_infinitylosslogitsr=r)r5r?r"rDrfrr}rFrZ ones_likerrrrZ masked_selectr#rZ log_softmaxrr;backendsZcudnnflagsZctc_lossZ pad_token_idZctc_loss_reductionZctc_zero_infinity_HIDDEN_STATES_START_POSITIONr r=r)r4rtrrrrr]rr=rbrar Z labels_maskZtarget_lengthsZflattened_targetsZ log_probsoutputr8r8r9r>9sN      zHubertForCTC.forwardrSr@)r@rArBrrr"rHrRrPr[rrrrrrr r>rCr8r8r6r9rAs6  rAz Hubert Model with a sequence classification head on top (a linear layer over the pooled output) for tasks like SUPERB Keyword Spotting. cseZdZfddZddZddZddZe dd ee j d ee j d ee d ee dee dee j de e effddZZS)r cst|t|dr|jrtdt||_|jd}|jr*t t |||_ t |j|j|_t |j|j|_|dS)NrCz]Sequence classification does not support the use of Hubert adapters (config.add_adapter=True)r)r!r"r+rCrfrrruse_weighted_layer_sumr#r9rr0rrzr%Zclassifier_proj_size projector num_labels classifierr;)r4r5Z num_layersr6r8r9r"s    z(HubertForSequenceClassification.__init__cCrI)z Calling this function will disable the gradient computation for the feature encoder so that its parameters will not be updated during training. rKNrLrQr8r8r9rRrSz8HubertForSequenceClassification.freeze_feature_extractorcCrTrUrVrQr8r8r9rPrWz6HubertForSequenceClassification.freeze_feature_encodercCrXrYrZrnr8r8r9r[r\z1HubertForSequenceClassification.freeze_base_modelNrtrrrrr]rcCsz|dur|n|jj}|jjrdn|}|j|||||d}|jjrB|t}tj|dd}tjj |j dd} || dddj dd}n|d}| |}|durV|jdd} n+||jd|} | ddd|jd} d || <|j dd| j dd dd} || } d}|durt}|| d|jj| d}|s| f|td}|dur|f|S|St|| |j|jd S) a input_values (`torch.FloatTensor` of shape `(batch_size, sequence_length)`): Float values of input raw speech waveform. Values can be obtained by loading a `.flac` or `.wav` audio file into an array of type `List[float]` or a `numpy.ndarray`, *e.g.* via the soundfile library (`pip install soundfile`). To prepare the array into `input_values`, the [`AutoProcessor`] should be used for padding and conversion into a tensor of type `torch.FloatTensor`. See [`HubertProcessor.__call__`] for details. labels (`torch.LongTensor` of shape `(batch_size,)`, *optional*): Labels for computing the sequence classification/regression loss. Indices should be in `[0, ..., config.num_labels - 1]`. If `config.num_labels == 1` a regression loss is computed (Mean-Square loss), If `config.num_labels > 1` a classification loss is computed (Cross-Entropy). NTr>rrrYrrrr`)r5r?rgrrerstackr#rrrrrrhrrrrrrjrrirr=r)r4rtrrrrr]rr=Z norm_weightsZ pooled_outputZ padding_maskZexpand_padding_maskrbraZloss_fctrfr8r8r9r>sH    z'HubertForSequenceClassification.forwardr@)r@rArBr"rRrPr[rrrrrrrrr>rCr8r8r6r9r s4   r )rAr rrrE)@rMtypingrrrnumpyr)rZtorch.nnr#rZ activationsrZintegrations.deepspeedrZintegrations.fsdpr Zmodeling_flash_attention_utilsr r Zmodeling_outputsr r rZmodeling_utilsrr*rrZconfiguration_hubertrrZ get_loggerr@rModulerr1rGrUrZr\rvrrrrrrrrrrrrrrZndarrayr4rrerAr __all__r8r8r8r9s         2 ,zi#U-YI  w  r