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# Twitter-roBERTa-base |
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This is a roBERTa-base model trained on ~58M tweets and finetuned for the hate detection task at Semeval 2019. |
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For full description: [_TweetEval_ benchmark (Findings of EMNLP 2020)](https://arxiv.org/pdf/2010.12421.pdf). |
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To evaluate this and other models on Twitter-specific data, please refer to the [Tweeteval official repository](https://github.com/cardiffnlp/tweeteval). |
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## Example of classification |
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```python |
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from transformers import AutoModelForSequenceClassification |
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from transformers import TFAutoModelForSequenceClassification |
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from transformers import AutoTokenizer |
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import numpy as np |
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from scipy.special import softmax |
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import csv |
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import urllib.request |
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# Tasks: |
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# emoji, emotion, hate, irony, offensive, sentiment |
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# stance/abortion, stance/atheism, stance/climate, stance/feminist, stance/hillary |
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task='hate' |
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MODEL = f"cardiffnlp/twitter-roberta-base-{task}" |
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tokenizer = AutoTokenizer.from_pretrained(MODEL) |
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# download label mapping |
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labels=[] |
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mapping_link = f"https://raw.githubusercontent.com/cardiffnlp/tweeteval/main/datasets/{task}/mapping.txt" |
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with urllib.request.urlopen(mapping_link) as f: |
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html = f.read().decode('utf-8').split("\n") |
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spamreader = csv.reader(html[:-1], delimiter='\t') |
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labels = [row[1] for row in spamreader] |
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# PT |
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model = AutoModelForSequenceClassification.from_pretrained(MODEL) |
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model.save_pretrained(MODEL) |
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text = "Good night π" |
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encoded_input = tokenizer(text, return_tensors='pt') |
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output = model(**encoded_input) |
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scores = output[0][0].detach().numpy() |
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scores = softmax(scores) |
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# # TF |
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# model = TFAutoModelForSequenceClassification.from_pretrained(MODEL) |
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# model.save_pretrained(MODEL) |
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# text = "Good night π" |
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# encoded_input = tokenizer(text, return_tensors='tf') |
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# output = model(encoded_input) |
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# scores = output[0][0].numpy() |
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# scores = softmax(scores) |
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ranking = np.argsort(scores) |
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ranking = ranking[::-1] |
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for i in range(scores.shape[0]): |
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l = labels[ranking[i]] |
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s = scores[ranking[i]] |
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print(f"{i+1}) {l} {np.round(float(s), 4)}") |
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``` |
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Output: |
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``` |
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1) π 0.2637 |
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2) β€οΈ 0.1952 |
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3) π 0.1171 |
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4) β¨ 0.0927 |
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5) π 0.0756 |
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6) π 0.046 |
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7) π 0.0444 |
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8) π 0.0272 |
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9) π 0.0228 |
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10) π 0.0198 |
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11) π 0.0166 |
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12) π 0.0132 |
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13) π 0.0131 |
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14) β 0.0112 |
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15) π 0.009 |
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16) π― 0.009 |
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17) π₯ 0.008 |
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18) π· 0.0057 |
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19) πΊπΈ 0.005 |
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20) πΈ 0.0048 |
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``` |
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