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<!---
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Copyright 2020 The HuggingFace Team. All rights reserved.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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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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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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-->
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# Migrating from previous packages
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## Migrating from transformers `v3.x` to `v4.x`
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A couple of changes were introduced when the switch from version 3 to version 4 was done. Below is a summary of the
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expected changes:
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#### 1. AutoTokenizers and pipelines now use fast (rust) tokenizers by default.
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The python and rust tokenizers have roughly the same API, but the rust tokenizers have a more complete feature set.
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This introduces two breaking changes:
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- The handling of overflowing tokens between the python and rust tokenizers is different.
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- The rust tokenizers do not accept integers in the encoding methods.
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##### How to obtain the same behavior as v3.x in v4.x
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- The pipelines now contain additional features out of the box. See the [token-classification pipeline with the `grouped_entities` flag](main_classes/pipelines#transformers.TokenClassificationPipeline).
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- The auto-tokenizers now return rust tokenizers. In order to obtain the python tokenizers instead, the user may use the `use_fast` flag by setting it to `False`:
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In version `v3.x`:
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```py
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from transformers import AutoTokenizer
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tokenizer = AutoTokenizer.from_pretrained("bert-base-cased")
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```
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to obtain the same in version `v4.x`:
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```py
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from transformers import AutoTokenizer
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tokenizer = AutoTokenizer.from_pretrained("bert-base-cased", use_fast=False)
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```
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#### 2. SentencePiece is removed from the required dependencies
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The requirement on the SentencePiece dependency has been lifted from the `setup.py`. This is done so that we may have a channel on anaconda cloud without relying on `conda-forge`. This means that the tokenizers that depend on the SentencePiece library will not be available with a standard `transformers` installation.
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This includes the **slow** versions of:
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- `XLNetTokenizer`
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- `AlbertTokenizer`
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- `CamembertTokenizer`
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- `MBartTokenizer`
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- `PegasusTokenizer`
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- `T5Tokenizer`
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- `ReformerTokenizer`
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- `XLMRobertaTokenizer`
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##### How to obtain the same behavior as v3.x in v4.x
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In order to obtain the same behavior as version `v3.x`, you should install `sentencepiece` additionally:
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In version `v3.x`:
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```bash
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pip install transformers
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```
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to obtain the same in version `v4.x`:
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```bash
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pip install transformers[sentencepiece]
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```
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or
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```bash
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pip install transformers sentencepiece
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```
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#### 3. The architecture of the repo has been updated so that each model resides in its folder
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The past and foreseeable addition of new models means that the number of files in the directory `src/transformers` keeps growing and becomes harder to navigate and understand. We made the choice to put each model and the files accompanying it in their own sub-directories.
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This is a breaking change as importing intermediary layers using a model's module directly needs to be done via a different path.
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##### How to obtain the same behavior as v3.x in v4.x
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In order to obtain the same behavior as version `v3.x`, you should update the path used to access the layers.
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In version `v3.x`:
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```bash
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from transformers.modeling_bert import BertLayer
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```
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to obtain the same in version `v4.x`:
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```bash
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from transformers.models.bert.modeling_bert import BertLayer
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```
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#### 4. Switching the `return_dict` argument to `True` by default
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The [`return_dict` argument](main_classes/output) enables the return of dict-like python objects containing the model outputs, instead of the standard tuples. This object is self-documented as keys can be used to retrieve values, while also behaving as a tuple as users may retrieve objects by index or by slice.
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This is a breaking change as the limitation of that tuple is that it cannot be unpacked: `value0, value1 = outputs` will not work.
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##### How to obtain the same behavior as v3.x in v4.x
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In order to obtain the same behavior as version `v3.x`, you should specify the `return_dict` argument to `False`, either in the model configuration or during the forward pass.
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In version `v3.x`:
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```bash
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model = BertModel.from_pretrained("bert-base-cased")
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outputs = model(**inputs)
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```
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to obtain the same in version `v4.x`:
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```bash
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model = BertModel.from_pretrained("bert-base-cased")
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outputs = model(**inputs, return_dict=False)
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```
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or
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```bash
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model = BertModel.from_pretrained("bert-base-cased", return_dict=False)
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outputs = model(**inputs)
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```
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#### 5. Removed some deprecated attributes
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Attributes that were deprecated have been removed if they had been deprecated for at least a month. The full list of deprecated attributes can be found in [#8604](https://github.com/huggingface/transformers/pull/8604).
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Here is a list of these attributes/methods/arguments and what their replacements should be:
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In several models, the labels become consistent with the other models:
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- `masked_lm_labels` becomes `labels` in `AlbertForMaskedLM` and `AlbertForPreTraining`.
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- `masked_lm_labels` becomes `labels` in `BertForMaskedLM` and `BertForPreTraining`.
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- `masked_lm_labels` becomes `labels` in `DistilBertForMaskedLM`.
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- `masked_lm_labels` becomes `labels` in `ElectraForMaskedLM`.
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- `masked_lm_labels` becomes `labels` in `LongformerForMaskedLM`.
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- `masked_lm_labels` becomes `labels` in `MobileBertForMaskedLM`.
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- `masked_lm_labels` becomes `labels` in `RobertaForMaskedLM`.
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- `lm_labels` becomes `labels` in `BartForConditionalGeneration`.
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- `lm_labels` becomes `labels` in `GPT2DoubleHeadsModel`.
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- `lm_labels` becomes `labels` in `OpenAIGPTDoubleHeadsModel`.
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- `lm_labels` becomes `labels` in `T5ForConditionalGeneration`.
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In several models, the caching mechanism becomes consistent with the other models:
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- `decoder_cached_states` becomes `past_key_values` in all BART-like, FSMT and T5 models.
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- `decoder_past_key_values` becomes `past_key_values` in all BART-like, FSMT and T5 models.
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- `past` becomes `past_key_values` in all CTRL models.
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- `past` becomes `past_key_values` in all GPT-2 models.
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Regarding the tokenizer classes:
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- The tokenizer attribute `max_len` becomes `model_max_length`.
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- The tokenizer attribute `return_lengths` becomes `return_length`.
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- The tokenizer encoding argument `is_pretokenized` becomes `is_split_into_words`.
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Regarding the `Trainer` class:
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- The `Trainer` argument `tb_writer` is removed in favor of the callback `TensorBoardCallback(tb_writer=...)`.
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- The `Trainer` argument `prediction_loss_only` is removed in favor of the class argument `args.prediction_loss_only`.
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- The `Trainer` attribute `data_collator` should be a callable.
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- The `Trainer` method `_log` is deprecated in favor of `log`.
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- The `Trainer` method `_training_step` is deprecated in favor of `training_step`.
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- The `Trainer` method `_prediction_loop` is deprecated in favor of `prediction_loop`.
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- The `Trainer` method `is_local_master` is deprecated in favor of `is_local_process_zero`.
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- The `Trainer` method `is_world_master` is deprecated in favor of `is_world_process_zero`.
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Regarding the `TFTrainer` class:
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- The `TFTrainer` argument `prediction_loss_only` is removed in favor of the class argument `args.prediction_loss_only`.
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- The `Trainer` method `_log` is deprecated in favor of `log`.
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- The `TFTrainer` method `_prediction_loop` is deprecated in favor of `prediction_loop`.
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- The `TFTrainer` method `_setup_wandb` is deprecated in favor of `setup_wandb`.
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- The `TFTrainer` method `_run_model` is deprecated in favor of `run_model`.
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Regarding the `TrainingArguments` class:
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- The `TrainingArguments` argument `evaluate_during_training` is deprecated in favor of `evaluation_strategy`.
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Regarding the Transfo-XL model:
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- The Transfo-XL configuration attribute `tie_weight` becomes `tie_words_embeddings`.
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- The Transfo-XL modeling method `reset_length` becomes `reset_memory_length`.
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Regarding pipelines:
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- The `FillMaskPipeline` argument `topk` becomes `top_k`.
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## Migrating from pytorch-transformers to 🤗 Transformers
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Here is a quick summary of what you should take care of when migrating from `pytorch-transformers` to 🤗 Transformers.
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### Positional order of some models' keywords inputs (`attention_mask`, `token_type_ids`...) changed
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To be able to use Torchscript (see #1010, #1204 and #1195) the specific order of some models **keywords inputs** (`attention_mask`, `token_type_ids`...) has been changed.
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If you used to call the models with keyword names for keyword arguments, e.g. `model(inputs_ids, attention_mask=attention_mask, token_type_ids=token_type_ids)`, this should not cause any change.
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If you used to call the models with positional inputs for keyword arguments, e.g. `model(inputs_ids, attention_mask, token_type_ids)`, you may have to double check the exact order of input arguments.
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## Migrating from pytorch-pretrained-bert
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Here is a quick summary of what you should take care of when migrating from `pytorch-pretrained-bert` to 🤗 Transformers
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### Models always output `tuples`
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The main breaking change when migrating from `pytorch-pretrained-bert` to 🤗 Transformers is that the models forward method always outputs a `tuple` with various elements depending on the model and the configuration parameters.
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The exact content of the tuples for each model are detailed in the models' docstrings and the [documentation](https://huggingface.co/transformers/).
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In pretty much every case, you will be fine by taking the first element of the output as the output you previously used in `pytorch-pretrained-bert`.
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Here is a `pytorch-pretrained-bert` to 🤗 Transformers conversion example for a `BertForSequenceClassification` classification model:
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```python
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# Let's load our model
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model = BertForSequenceClassification.from_pretrained("bert-base-uncased")
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# If you used to have this line in pytorch-pretrained-bert:
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loss = model(input_ids, labels=labels)
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# Now just use this line in 🤗 Transformers to extract the loss from the output tuple:
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outputs = model(input_ids, labels=labels)
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loss = outputs[0]
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# In 🤗 Transformers you can also have access to the logits:
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loss, logits = outputs[:2]
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# And even the attention weights if you configure the model to output them (and other outputs too, see the docstrings and documentation)
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model = BertForSequenceClassification.from_pretrained("bert-base-uncased", output_attentions=True)
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outputs = model(input_ids, labels=labels)
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loss, logits, attentions = outputs
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```
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### Serialization
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Breaking change in the `from_pretrained()`method:
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1. Models are now set in evaluation mode by default when instantiated with the `from_pretrained()` method. To train them don't forget to set them back in training mode (`model.train()`) to activate the dropout modules.
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2. The additional `*inputs` and `**kwargs` arguments supplied to the `from_pretrained()` method used to be directly passed to the underlying model's class `__init__()` method. They are now used to update the model configuration attribute first which can break derived model classes build based on the previous `BertForSequenceClassification` examples. More precisely, the positional arguments `*inputs` provided to `from_pretrained()` are directly forwarded the model `__init__()` method while the keyword arguments `**kwargs` (i) which match configuration class attributes are used to update said attributes (ii) which don't match any configuration class attributes are forwarded to the model `__init__()` method.
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Also, while not a breaking change, the serialization methods have been standardized and you probably should switch to the new method `save_pretrained(save_directory)` if you were using any other serialization method before.
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Here is an example:
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```python
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### Let's load a model and tokenizer
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model = BertForSequenceClassification.from_pretrained("bert-base-uncased")
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tokenizer = BertTokenizer.from_pretrained("bert-base-uncased")
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### Do some stuff to our model and tokenizer
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# Ex: add new tokens to the vocabulary and embeddings of our model
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tokenizer.add_tokens(["[SPECIAL_TOKEN_1]", "[SPECIAL_TOKEN_2]"])
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model.resize_token_embeddings(len(tokenizer))
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# Train our model
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train(model)
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### Now let's save our model and tokenizer to a directory
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model.save_pretrained("./my_saved_model_directory/")
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tokenizer.save_pretrained("./my_saved_model_directory/")
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### Reload the model and the tokenizer
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model = BertForSequenceClassification.from_pretrained("./my_saved_model_directory/")
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tokenizer = BertTokenizer.from_pretrained("./my_saved_model_directory/")
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```
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### Optimizers: BertAdam & OpenAIAdam are now AdamW, schedules are standard PyTorch schedules
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The two optimizers previously included, `BertAdam` and `OpenAIAdam`, have been replaced by a single `AdamW` optimizer which has a few differences:
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- it only implements weights decay correction,
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- schedules are now externals (see below),
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- gradient clipping is now also external (see below).
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The new optimizer `AdamW` matches PyTorch `Adam` optimizer API and let you use standard PyTorch or apex methods for the schedule and clipping.
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The schedules are now standard [PyTorch learning rate schedulers](https://pytorch.org/docs/stable/optim.html#how-to-adjust-learning-rate) and not part of the optimizer anymore.
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Here is a conversion examples from `BertAdam` with a linear warmup and decay schedule to `AdamW` and the same schedule:
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```python
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# Parameters:
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lr = 1e-3
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max_grad_norm = 1.0
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num_training_steps = 1000
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num_warmup_steps = 100
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warmup_proportion = float(num_warmup_steps) / float(num_training_steps) # 0.1
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### Previously BertAdam optimizer was instantiated like this:
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optimizer = BertAdam(
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model.parameters(),
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lr=lr,
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schedule="warmup_linear",
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warmup=warmup_proportion,
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num_training_steps=num_training_steps,
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)
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### and used like this:
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for batch in train_data:
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loss = model(batch)
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loss.backward()
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optimizer.step()
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### In 🤗 Transformers, optimizer and schedules are split and instantiated like this:
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optimizer = AdamW(
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model.parameters(), lr=lr, correct_bias=False
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) # To reproduce BertAdam specific behavior set correct_bias=False
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scheduler = get_linear_schedule_with_warmup(
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optimizer, num_warmup_steps=num_warmup_steps, num_training_steps=num_training_steps
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) # PyTorch scheduler
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### and used like this:
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for batch in train_data:
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loss = model(batch)
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loss.backward()
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torch.nn.utils.clip_grad_norm_(
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model.parameters(), max_grad_norm
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) # Gradient clipping is not in AdamW anymore (so you can use amp without issue)
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optimizer.step()
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scheduler.step()
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```
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