--- annotations_creators: - derived language: - rus license: unknown multilinguality: monolingual task_categories: - text-classification task_ids: - sentiment-analysis - sentiment-scoring - sentiment-classification - hate-speech-detection dataset_info: features: - name: text dtype: string - name: toxic dtype: int64 - name: labels sequence: int64 splits: - name: train num_bytes: 345040 num_examples: 2000 - name: test num_bytes: 323745 num_examples: 2000 download_size: 347393 dataset_size: 668785 configs: - config_name: default data_files: - split: train path: data/train-* - split: test path: data/test-* tags: - mteb - text ---

RuToxicOKMLCUPMultilabelClassification

An MTEB dataset

Massive Text Embedding Benchmark

On the Odnoklassniki social network, users post a huge number of comments of various directions and nature every day. | | | |---------------|---------------------------------------------| | Task category | t2t | | Domains | None | | Reference | https://cups.online/ru/contests/okmlcup2020 | ## How to evaluate on this task You can evaluate an embedding model on this dataset using the following code: ```python import mteb task = mteb.get_tasks(["RuToxicOKMLCUPMultilabelClassification"]) evaluator = mteb.MTEB(task) model = mteb.get_model(YOUR_MODEL) evaluator.run(model) ``` To learn more about how to run models on `mteb` task check out the [GitHub repitory](https://github.com/embeddings-benchmark/mteb). ## Citation If you use this dataset, please cite the dataset as well as [mteb](https://github.com/embeddings-benchmark/mteb), as this dataset likely includes additional processing as a part of the [MMTEB Contribution](https://github.com/embeddings-benchmark/mteb/tree/main/docs/mmteb). ```bibtex @article{enevoldsen2025mmtebmassivemultilingualtext, title={MMTEB: Massive Multilingual Text Embedding Benchmark}, author={Kenneth Enevoldsen and Isaac Chung and Imene Kerboua and Márton Kardos and Ashwin Mathur and David Stap and Jay Gala and Wissam Siblini and Dominik Krzemiński and Genta Indra Winata and Saba Sturua and Saiteja Utpala and Mathieu Ciancone and Marion Schaeffer and Gabriel Sequeira and Diganta Misra and Shreeya Dhakal and Jonathan Rystrøm and Roman Solomatin and Ömer Çağatan and Akash Kundu and Martin Bernstorff and Shitao Xiao and Akshita Sukhlecha and Bhavish Pahwa and Rafał Poświata and Kranthi Kiran GV and Shawon Ashraf and Daniel Auras and Björn Plüster and Jan Philipp Harries and Loïc Magne and Isabelle Mohr and Mariya Hendriksen and Dawei Zhu and Hippolyte Gisserot-Boukhlef and Tom Aarsen and Jan Kostkan and Konrad Wojtasik and Taemin Lee and Marek Šuppa and Crystina Zhang and Roberta Rocca and Mohammed Hamdy and Andrianos Michail and John Yang and Manuel Faysse and Aleksei Vatolin and Nandan Thakur and Manan Dey and Dipam Vasani and Pranjal Chitale and Simone Tedeschi and Nguyen Tai and Artem Snegirev and Michael Günther and Mengzhou Xia and Weijia Shi and Xing Han Lù and Jordan Clive and Gayatri Krishnakumar and Anna Maksimova and Silvan Wehrli and Maria Tikhonova and Henil Panchal and Aleksandr Abramov and Malte Ostendorff and Zheng Liu and Simon Clematide and Lester James Miranda and Alena Fenogenova and Guangyu Song and Ruqiya Bin Safi and Wen-Ding Li and Alessia Borghini and Federico Cassano and Hongjin Su and Jimmy Lin and Howard Yen and Lasse Hansen and Sara Hooker and Chenghao Xiao and Vaibhav Adlakha and Orion Weller and Siva Reddy and Niklas Muennighoff}, publisher = {arXiv}, journal={arXiv preprint arXiv:2502.13595}, year={2025}, url={https://arxiv.org/abs/2502.13595}, doi = {10.48550/arXiv.2502.13595}, } @article{muennighoff2022mteb, author = {Muennighoff, Niklas and Tazi, Nouamane and Magne, Lo{\"\i}c and Reimers, Nils}, title = {MTEB: Massive Text Embedding Benchmark}, publisher = {arXiv}, journal={arXiv preprint arXiv:2210.07316}, year = {2022} url = {https://arxiv.org/abs/2210.07316}, doi = {10.48550/ARXIV.2210.07316}, } ``` # Dataset Statistics

Dataset Statistics

The following code contains the descriptive statistics from the task. These can also be obtained using: ```python import mteb task = mteb.get_task("RuToxicOKMLCUPMultilabelClassification") desc_stats = task.metadata.descriptive_stats ``` ```json { "test": { "num_samples": 2000, "number_of_characters": 152400, "number_texts_intersect_with_train": 0, "min_text_length": 6, "average_text_length": 76.2, "max_text_length": 790, "unique_texts": 2000, "min_labels_per_text": 1, "average_label_per_text": 1.0885, "max_labels_per_text": 3, "unique_labels": 4, "labels": { "1": { "count": 1000 }, "0": { "count": 810 }, "3": { "count": 275 }, "2": { "count": 92 } } }, "train": { "num_samples": 2000, "number_of_characters": 163893, "number_texts_intersect_with_train": null, "min_text_length": 5, "average_text_length": 81.9465, "max_text_length": 965, "unique_texts": 2000, "min_labels_per_text": 1, "average_label_per_text": 1.093, "max_labels_per_text": 3, "unique_labels": 4, "labels": { "1": { "count": 1000 }, "0": { "count": 824 }, "3": { "count": 260 }, "2": { "count": 102 } } } } ```

--- *This dataset card was automatically generated using [MTEB](https://github.com/embeddings-benchmark/mteb)*