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The TextCategorizer class is supposed to support multi-label text classification, and allow training data to contain missing values. For this to work, the gradient of the loss should be 0 when labels are missing. Instead, there was no way to actually denote "missing" in the GoldParse class, and so the TextCategorizer class treated the label set within gold.cats as complete. To fix this, we change GoldParse.cats to be a dict instead of a list. The GoldParse.cats dict should map to floats, with 1. denoting 'present' and 0. denoting 'absent'. Gradients are zeroed for categories absent from the gold.cats dict. A nice bonus is that you can also set values between 0 and 1 for partial membership. You can also set numeric values, if you're using a text classification model that uses an appropriate loss function. Unfortunately this is a breaking change; although the functionality was only recently introduced and hasn't been properly documented yet. I've updated the example script accordingly.
122 lines
4.0 KiB
Python
122 lines
4.0 KiB
Python
'''Train a multi-label convolutional neural network text classifier,
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using the spacy.pipeline.TextCategorizer component. The model is then added
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to spacy.pipeline, and predictions are available at `doc.cats`.
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'''
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from __future__ import unicode_literals
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import plac
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import random
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import tqdm
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from thinc.neural.optimizers import Adam
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from thinc.neural.ops import NumpyOps
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import thinc.extra.datasets
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import spacy.lang.en
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from spacy.gold import GoldParse, minibatch
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from spacy.util import compounding
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from spacy.pipeline import TextCategorizer
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# TODO: Remove this once we're not supporting models trained with thinc <6.9.0
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import thinc.neural._classes.layernorm
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thinc.neural._classes.layernorm.set_compat_six_eight(False)
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def train_textcat(tokenizer, textcat,
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train_texts, train_cats, dev_texts, dev_cats,
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n_iter=20):
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'''
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Train the TextCategorizer without associated pipeline.
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'''
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textcat.begin_training()
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optimizer = Adam(NumpyOps(), 0.001)
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train_docs = [tokenizer(text) for text in train_texts]
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train_gold = [GoldParse(doc, cats=cats) for doc, cats in
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zip(train_docs, train_cats)]
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train_data = list(zip(train_docs, train_gold))
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batch_sizes = compounding(4., 128., 1.001)
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for i in range(n_iter):
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losses = {}
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# Progress bar and minibatching
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batches = minibatch(tqdm.tqdm(train_data, leave=False), size=batch_sizes)
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for batch in batches:
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docs, golds = zip(*batch)
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textcat.update(docs, golds, sgd=optimizer, drop=0.2,
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losses=losses)
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with textcat.model.use_params(optimizer.averages):
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scores = evaluate(tokenizer, textcat, dev_texts, dev_cats)
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yield losses['textcat'], scores
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def evaluate(tokenizer, textcat, texts, cats):
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docs = (tokenizer(text) for text in texts)
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tp = 1e-8 # True positives
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fp = 1e-8 # False positives
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fn = 1e-8 # False negatives
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tn = 1e-8 # True negatives
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for i, doc in enumerate(textcat.pipe(docs)):
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gold = cats[i]
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for label, score in doc.cats.items():
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if label not in gold:
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continue
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if score >= 0.5 and gold[label] >= 0.5:
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tp += 1.
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elif score >= 0.5 and gold[label] < 0.5:
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fp += 1.
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elif score < 0.5 and gold[label] < 0.5:
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tn += 1
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elif score < 0.5 and gold[label] >= 0.5:
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fn += 1
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precis = tp / (tp + fp)
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recall = tp / (tp + fn)
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fscore = 2 * (precis * recall) / (precis + recall)
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return {'textcat_p': precis, 'textcat_r': recall, 'textcat_f': fscore}
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def load_data(limit=0):
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# Partition off part of the train data --- avoid running experiments
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# against test.
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train_data, _ = thinc.extra.datasets.imdb()
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random.shuffle(train_data)
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train_data = train_data[-limit:]
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texts, labels = zip(*train_data)
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cats = [{'POSITIVE': bool(y)} for y in labels]
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split = int(len(train_data) * 0.8)
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train_texts = texts[:split]
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train_cats = cats[:split]
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dev_texts = texts[split:]
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dev_cats = cats[split:]
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return (train_texts, train_cats), (dev_texts, dev_cats)
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def main(model_loc=None):
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nlp = spacy.lang.en.English()
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tokenizer = nlp.tokenizer
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textcat = TextCategorizer(tokenizer.vocab, labels=['POSITIVE'])
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print("Load IMDB data")
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(train_texts, train_cats), (dev_texts, dev_cats) = load_data(limit=2000)
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print("Itn.\tLoss\tP\tR\tF")
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progress = '{i:d} {loss:.3f} {textcat_p:.3f} {textcat_r:.3f} {textcat_f:.3f}'
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for i, (loss, scores) in enumerate(train_textcat(tokenizer, textcat,
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train_texts, train_cats,
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dev_texts, dev_cats, n_iter=20)):
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print(progress.format(i=i, loss=loss, **scores))
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# How to save, load and use
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nlp.pipeline.append(textcat)
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if model_loc is not None:
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nlp.to_disk(model_loc)
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nlp = spacy.load(model_loc)
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doc = nlp(u'This movie sucked!')
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print(doc.cats)
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if __name__ == '__main__':
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plac.call(main)
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