WRAPresentations / README.md

Add new SentenceTransformer model.

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	---
	pipeline_tag: sentence-similarity
	tags:
	- sentence-transformers
	- feature-extraction
	- sentence-similarity
	- transformers
	- argument-mining
	- Twitter
	metrics:
	- macro-F1
	license: cc-by-sa-4.0
	language:
	- en
	widget:
	- source_sentence: "The formula: Not everyone who voted Leave is racist. But everyone who's racist voted Leave. Not everyone who voted Leave is thick. But everyone who's thick voted Leave. The thick racists therefore called the shots, whatever the thoughts of the minority of others. #thick #Brexit"
	sentences:
	- "Men shouldn’t be making laws about women’s bodies #abortion #Texas"
	- "Opinion: As the draconian (and then some) abortion law takes effecting #Texas, this is not an idle question for millions of Americans. A slippery slope towards more like-minded Republican state-legislatures to try to follow suit. #abortion #F24 HTTPURL"
	- "’Bitter truth’: EU chief pours cold water on idea of Brits keeping EU citizenship after #Brexit HTTPURL via @USER"
	- "@USER Blah blah blah blah blah blah"
	example_title: "Reason"

	- source_sentence: "This is NOT good for children."
	sentences:
	- "Men shouldn’t be making laws about women’s bodies #abortion #Texas"
	- "Opinion: As the draconian (and then some) abortion law takes effecting #Texas, this is not an idle question for millions of Americans. A slippery slope towards more like-minded Republican state-legislatures to try to follow suit. #abortion #F24 HTTPURL"
	- "’Bitter truth’: EU chief pours cold water on idea of Brits keeping EU citizenship after #Brexit HTTPURL via @USER"
	- "@USER Blah blah blah blah blah blah"
	example_title: "Statement"

	- source_sentence: "Elon Musk ready with 'Plan B' if Twitter rejects his offer Read @USER Story \| HTTPURL #ElonMusk #ElonMuskTwitter #TwitterTakeover HTTPURL"
	sentences:
	- "Men shouldn’t be making laws about women’s bodies #abortion #Texas"
	- "Opinion: As the draconian (and then some) abortion law takes effecting #Texas, this is not an idle question for millions of Americans. A slippery slope towards more like-minded Republican state-legislatures to try to follow suit. #abortion #F24 HTTPURL"
	- "’Bitter truth’: EU chief pours cold water on idea of Brits keeping EU citizenship after #Brexit HTTPURL via @USER"
	- "@USER Blah blah blah blah blah blah"
	example_title: "Notification"

	- source_sentence: "@USER 👅is the Key 😂"
	sentences:
	- "Men shouldn’t be making laws about women’s bodies #abortion #Texas"
	- "Opinion: As the draconian (and then some) abortion law takes effecting #Texas, this is not an idle question for millions of Americans. A slippery slope towards more like-minded Republican state-legislatures to try to follow suit. #abortion #F24 HTTPURL"
	- "’Bitter truth’: EU chief pours cold water on idea of Brits keeping EU citizenship after #Brexit HTTPURL via @USER"
	- "@USER Blah blah blah blah blah blah"
	example_title: "None"
	---

	# WRAPresentations

	Introducing WRAPresentations, a cutting-edge [sentence-transformers](https://www.SBERT.net) model that leverages the power of a 768-dimensional dense
	vector space to map tweets according to the four classes Reason, Statement, Notification and None. This powerful model is tailored for
	argument mining on Twitter, derived from the [BERTweet-base](https://huggingface.co/vinai/bertweet-base) architecture initially pre-trained on
	Twitter data. Through fine-tuning with the [TACO](https://doi.org/10.5281/zenodo.8030026) dataset, WRAPresentations is effectively in Weaving
	Relevant Argument Properties (WRAP) into the embedding space.

	## Class Semantics

	WRAPresentations, to some degree, captures the semantics of the critical components of an argument (inference and information), as defined by the
	[Cambridge Dictionary](https://dictionary.cambridge.org).
	It encodes inference as a guess that you make or an opinion that you form based on the information that you have, and it also leverages the
	definition of information as facts or details about a person, company, product, etc..

	Consequently, it has also learned the semantics of:

	* Statement, which refers to unique cases where only the inference is presented as *something that someone says or writes officially, or an
	action done to express an opinion*.
	* Reason, which represents a full argument where the inference is based on direct information mentioned in the tweet, such as a
	source-reference or quotation, and thus reveals the author’s motivation to try to understand and to make judgments based on practical facts.
	* Notification, which refers to a tweet that limits itself to providing information, such as media channels promoting their latest articles.
	* None, a tweet that provides neither inference nor information.

	In its entirety, WRAPresentations encodes the following hierarchy for tweets:

	<div align="center">
	<img src="https://github.com/TomatenMarc/public-images/raw/main/Argument_Tree.svg" alt="Argument Tree" width="100%">
	</div>


	## Usage (Sentence-Transformers)

	Using this model becomes easy when you have [sentence-transformers](https://www.SBERT.net) installed:

	```
	pip install -U sentence-transformers
	```

	Then you can use the model to generate tweet representations like this:

	```python
	from sentence_transformers import SentenceTransformer

	tweets = ["This is an example #tweet", "Each tweet is converted"]

	model = SentenceTransformer("TomatenMarc/WRAPresentations")
	embeddings = model.encode(tweets)
	print(embeddings)
	```

	<a href="https://github.com/VinAIResearch/BERTweet/blob/master/TweetNormalizer.py">
	<blockquote style="border-left: 5px solid grey; background-color: #f0f5ff; padding: 10px;">
	Notice: The tweets need to undergo preprocessing following the specifications for BERTweet-base.
	</blockquote>
	</a>

	## Usage (HuggingFace Transformers)

	Without [sentence-transformers](https://www.SBERT.net), you can use the model like this: First, you pass your input through the transformer model,
	then you have to apply the right pooling-operation on top of the contextualized word embeddings.

	```python
	from transformers import AutoTokenizer, AutoModel
	import torch


	# Mean Pooling - Take attention mask into account for correct averaging
	def mean_pooling(model_output, attention_mask):
	token_embeddings = model_output[0] # First element of model_output contains all token embeddings
	input_mask_expanded = attention_mask.unsqueeze(-1).expand(token_embeddings.size()).float()
	return torch.sum(token_embeddings * input_mask_expanded, 1) / torch.clamp(input_mask_expanded.sum(1), min=1e-9)


	# Tweets we want embeddings for
	tweets = ["This is an example #tweet", "Each tweet is converted"]

	# Load model from HuggingFace Hub
	tokenizer = AutoTokenizer.from_pretrained("TomatenMarc/WRAPresentations")
	model = AutoModel.from_pretrained("TomatenMarc/WRAPresentations")

	# Tokenize sentences
	encoded_input = tokenizer(tweets, padding=True, truncation=True, return_tensors="pt")

	# Compute token embeddings
	with torch.no_grad():
	model_output = model(**encoded_input)

	# Perform pooling. In this case, mean pooling.
	sentence_embeddings = mean_pooling(model_output, encoded_input["attention_mask"])

	print("Sentence embeddings:")
	print(sentence_embeddings)
	```

	Furthermore, the WRAPresentations model is a highly suitable embedding component for `AutoModelForSequenceClassification`, enabling fine-tuning of
	tweet classification tasks specifically for the four classes: Reason, Statement, Notification, and None. The categorization of Reason and Statement as
	argument classes and Notification and None as non-argument classes is implicitly learned during the fine-tuning process. This setup facilitates
	efficient identification and analysis of argumentative content and non-argumentative content in tweets.

	## Training

	The WRAPresentations model underwent fine-tuning with 1,219 golden tweets from the [TACO](https://doi.org/10.5281/zenodo.8030026) dataset, covering six topics.
	Five topics were chosen for optimization, representing 925 tweets (75.88%) covering #brexit (33.3%), #got (17%), #lotrrop (18.8%), #squidgame (17.1%),
	and #twittertakeover (13.8%). The model used a stratified 60/40 split for training/testing on optimization data.
	Additionally, 294 golden tweets (24.12%) related to the topic of #abortion were chosen as the holdout-set for final evaluation.

	Before fine-tuning, we built a copy of the dataset by creating an augmentation of each tweet. The augmentation consisted of replacing all the
	topic words and entities in a tweet replaced, and then randomly masking 10% of the words in a tweet, which were then matched using
	[BERTweet-base](https://huggingface.co/vinai/bertweet-base) as a `fill-mask` model. We chose to omit 10% of the words because this resulted in the
	smallest possible average cosine distance between the tweets and their augmentations of 0.08, which is close to total dissimilarity, making
	augmentation during extended pre-training itself a regulating factor prior to any overfitting with the later test data.
	During fine-tuning, we formed pairs by matching each tweet with all remaining tweets in the same data split (training, testing, holdout)
	with similar or dissimilar class labels. For the training and testing set during the fine-tuning process, we utilized the augmentations, and for the
	holdout tweets, we used their original text to test the fine-tuning process and the usefulness of the augmentations towards real tweets.
	For all pairs, we chose the largest possible set so that both similar and dissimilar pairs are equally represented while covering all tweets
	of the respective data split.
	This process created 307,470 pairs for training and 136,530 pairs for testing. An additional 86,142 pairs were used for final evaluation with the
	holdout data.

	The model was trained with the parameters:

	DataLoader:

	`torch.utils.data.dataloader.DataLoader` of length 5065 with parameters:

	```
	{'batch_size': 32, 'sampler': 'torch.utils.data.sampler.RandomSampler', 'batch_sampler': 'torch.utils.data.sampler.BatchSampler'}
	```

	Loss:

	`sentence_transformers.losses.ContrastiveLoss.ContrastiveLoss` with parameters:

	```
	{'distance_metric': 'SiameseDistanceMetric.COSINE_DISTANCE', 'margin': 0.5, 'size_average': True}
	```

	Parameters of the fit()-Method:

	```
	{
	"epochs": 5,
	"evaluation_steps": 1000,
	"evaluator": "sentence_transformers.evaluation.BinaryClassificationEvaluator.BinaryClassificationEvaluator",
	"max_grad_norm": 1,
	"optimizer_class": "<class 'torch.optim.adamw.AdamW'>",
	"optimizer_params": {
	"lr": 4e-05
	},
	"scheduler": "WarmupLinear",
	"steps_per_epoch": null,
	"warmup_steps": 2533,
	"weight_decay": 0.01
	}
	```

	## Evaluation Results

	Following the [standard protocol](https://aclanthology.org/D17-1218.pdf) for cross-topic evaluation for argument mining, we evaluated the
	WRAPresentation model using the
	`BinaryClassificationEvaluator` showing:


	\| Model \| Accuracy \| Precision \| Recall \| F1 \| Support \|
	\|---------------------\|----------\|-----------\|--------\|--------\|---------\|
	\| vinai/bertweet-base \| 60.62% \| 50.08% \| 99.89% \| 66.71% \| 86,142 \|
	\| WRAPresentations \| 71.32% \| 66.22% \| 84.05% \| 74.08% \| 86,142 \|

	An evaluation was conducted on previously unseen data from the holdout topic #abortion, resulting in the model achieving a sophisticated macro-F1
	score of 74.08%. The recall, which stands at 84.05%, indicates the model's ability to capture subtle tweet patterns and class-specific features for
	Reason, Statement, Notification, and None. Despite having a lower precision of 66.22%, the model's primary focus is on prioritizing recall to capture
	relevant instances. Fine-tuning precision can be addressed in a subsequent classification phase, when using this model
	for `AutoModelForSequenceClassification`. In contrast, the baseline model (vinai/bertweet-base) achieved an exceptional recall of 99.89%, but it
	comes with a precision trade-off (50.08%), possibly indicating overfitting. However, WRAPresentations demonstrated its ability to effectively
	distinguish between tweets of the argument framework, capturing intra-class semantics while discerning inter-class semantics.
	This is indicated by its better F1 score of 74.08%, showcasing a superior balance between recall and precision.
	As a result, WRAPresentations proves to be more suitable for argument mining on Twitter, as it achieves a more reliable performance in identifying
	relevant instances in the data.

	## Full Model Architecture

	```
	SentenceTransformer(
	(0): Transformer({'max_seq_length': 128, 'do_lower_case': False}) with Transformer model: RobertaModel
	(1): Pooling({'word_embedding_dimension': 768, 'pooling_mode_cls_token': False, 'pooling_mode_mean_tokens': True, 'pooling_mode_max_tokens': False, 'pooling_mode_mean_sqrt_len_tokens': False})
	)
	```

	# Environmental Impact

	- Hardware Type: A100 PCIe 40GB
	- Hours used: 2h
	- Cloud Provider: [Google Cloud Platform](https://colab.research.google.com)
	- Compute Region: [asia-southeast1](https://cloud.google.com/compute/docs/gpus/gpu-regions-zones?hl=en) (Singapore)
	- Carbon Emitted: 0.21kg CO2

	## Licensing

	[WRAPresentations](https://huggingface.co/TomatenMarc/WRAPresentations) © 2023 is licensed under [CC BY-NC-SA 4.0](https://creativecommons.org/licenses/by-nc-sa/4.0/?ref=chooser-v1).