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"""TODO: Add a description here.""" |
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import evaluate |
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import datasets |
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from collections import Counter |
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import numpy as np |
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_CITATION = """\ |
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@InProceedings{huggingface:module, |
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title = {A great new module}, |
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authors={huggingface, Inc.}, |
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year={2020} |
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} |
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""" |
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_DESCRIPTION = """\ |
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This module calculates the unigram precision, recall, and f1 score. |
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""" |
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_KWARGS_DESCRIPTION = """ |
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Calculates how good are predictions given some references, using certain scores |
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Args: |
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predictions: list of list of int (token) |
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references: list of list of int (tokens) |
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Returns: |
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f1: the unigram f1 score. |
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precision: the unigram accuracy. |
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recall: the unigram recall. |
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Examples: |
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>>> my_new_module = evaluate.load("ckb/unigram") |
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>>> results = my_new_module.compute(references=[[0, 1]], predictions=[[0, 1]]) |
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>>> print(results) |
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{'accuracy': 1.0} |
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""" |
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@evaluate.utils.file_utils.add_start_docstrings(_DESCRIPTION, _KWARGS_DESCRIPTION) |
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class unigram(evaluate.Metric): |
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"""TODO: Short description of my evaluation module.""" |
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def _info(self): |
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return evaluate.MetricInfo( |
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module_type="metric", |
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description=_DESCRIPTION, |
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citation=_CITATION, |
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inputs_description=_KWARGS_DESCRIPTION, |
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features=datasets.Features({ |
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'predictions': datasets.Sequence(datasets.Value('int64')), |
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'references': datasets.Sequence(datasets.Value('int64')), |
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}), |
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homepage="http://module.homepage", |
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codebase_urls=["http://github.com/path/to/codebase/of/new_module"], |
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reference_urls=["http://path.to.reference.url/new_module"] |
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) |
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def _prec_recall_f1_score(self, pred_items, gold_items): |
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""" |
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Compute precision, recall and f1 given a set of gold and prediction items. |
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:param pred_items: iterable of predicted values |
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:param gold_items: iterable of gold values |
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:return: tuple (p, r, f1) for precision, recall, f1 |
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""" |
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common = Counter(gold_items) & Counter(pred_items) |
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num_same = sum(common.values()) |
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if num_same == 0: |
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return 0, 0, 0 |
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precision = 1.0 * num_same / len(pred_items) |
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recall = 1.0 * num_same / len(gold_items) |
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f1 = (2 * precision * recall) / (precision + recall) |
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return np.array([precision, recall, f1]) |
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def _compute(self, predictions, references): |
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"""Returns the scores""" |
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score = sum([self._prec_recall_f1_score(i, j) for i, j in zip(predictions, references)]) / float(len(predictions)) |
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return { |
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"precision": score[0], |
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"recall": score[1], |
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"f1": score[2], |
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} |
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