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"""An ambiguous mnist data set""" |
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import csv |
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import datasets |
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import numpy as np |
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from datasets.tasks import ImageClassification |
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_CITATION = """\ |
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@misc{https://doi.org/10.48550/arxiv.2207.10495, |
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doi = {10.48550/ARXIV.2207.10495}, |
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url = {https://arxiv.org/abs/2207.10495}, |
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author = {Weiss, Michael and Gómez, André García and Tonella, Paolo}, |
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title = {A Forgotten Danger in DNN Supervision Testing: Generating and Detecting True Ambiguity}, |
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publisher = {arXiv}, |
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year = {2022} |
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} |
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""" |
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_DESCRIPTION = """\ |
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The images were created such that they have an unclear ground truth, |
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i.e., such that they are similar to multiple - but not all - of the datasets classes. |
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Robust and uncertainty-aware models should be able to detect and flag these ambiguous images. |
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As such, the dataset should be merged / mixed with the original dataset and we |
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provide such 'mixed' splits for convenience. Please refer to the dataset card for details. |
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""" |
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_HOMEPAGE = "https://github.com/testingautomated-usi/ambiguous-datasets" |
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_LICENSE = "https://raw.githubusercontent.com/testingautomated-usi/ambiguous-datasets/main/LICENSE" |
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_VERSION = "0.1.0" |
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_URL = f"https://github.com/testingautomated-usi/ambiguous-datasets/releases/download/v{_VERSION}/" |
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_URLS = { |
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"train": "mnist-test.csv", |
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"test": "mnist-test.csv", |
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} |
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_NAMES = list(range(10)) |
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class MnistAmbiguous(datasets.GeneratorBasedBuilder): |
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"""An ambiguous mnist data set""" |
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BUILDER_CONFIGS = [ |
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datasets.BuilderConfig( |
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name="mnist_ambiguous", |
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version=datasets.Version(_VERSION), |
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description=_DESCRIPTION, |
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) |
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] |
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def _info(self): |
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return datasets.DatasetInfo( |
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description=_DESCRIPTION, |
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features=datasets.Features( |
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{ |
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"image": datasets.Image(), |
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"label": datasets.features.ClassLabel(names=_NAMES), |
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"text_label": datasets.Value("string"), |
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"p_label": datasets.Sequence(datasets.Value("float32"), length=10), |
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"is_ambiguous": datasets.Value("bool"), |
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} |
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), |
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supervised_keys=("image", "label"), |
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homepage=_HOMEPAGE, |
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citation=_CITATION, |
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task_templates=[ImageClassification(image_column="image", label_column="label")], |
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) |
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def _split_generators(self, dl_manager): |
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urls_to_download = {key: _URL + fname for key, fname in _URLS.items()} |
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downloaded_files = dl_manager.download(urls_to_download) |
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return [ |
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datasets.SplitGenerator( |
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name=datasets.Split.TRAIN, |
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gen_kwargs={ |
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"filepath": downloaded_files["train"], |
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"split": "train", |
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}, |
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), |
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datasets.SplitGenerator( |
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name=datasets.Split.TEST, |
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gen_kwargs={ |
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"filepath": downloaded_files["test"], |
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"split": "test", |
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}, |
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), |
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datasets.SplitGenerator( |
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name="train_mixed", |
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gen_kwargs={ |
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"filepath": downloaded_files["train"], |
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"split": "train_mixed", |
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}, |
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), |
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datasets.SplitGenerator( |
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name="test_mixed", |
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gen_kwargs={ |
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"filepath": downloaded_files["test"], |
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"split": "test_mixed", |
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}, |
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), |
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] |
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def _generate_examples(self, filepath, split): |
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"""This function returns the examples in the raw form.""" |
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def _gen_amb_images(): |
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with open(filepath) as csvfile: |
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spamreader = csv.reader(csvfile, delimiter=',', quotechar='"') |
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for i, row in enumerate(spamreader): |
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if i == 0: |
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continue |
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det_label = int(row[7]) |
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class_1, class_2 = int(row[3]), int(row[4]) |
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p_1, p_2 = float(row[5]), float(row[6]) |
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text_label = f"p({_NAMES[class_1]})={p_1:.2f}, p({_NAMES[class_2]})={p_2:.2f}" |
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p_label = [0.0] * 10 |
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p_label[class_1] = p_1 |
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p_label[class_2] = p_2 |
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image = np.array(row[9:], dtype=np.uint8).reshape(28, 28) |
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yield i, {"image": image, "label": det_label, |
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"text_label": text_label, "p_label": p_label, "is_ambiguous": True} |
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if split == "test" or split == "train": |
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yield from _gen_amb_images() |
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elif split == "test_mixed" or split == "train_mixed": |
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nominal_samples = [] |
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nom_split = "test" if split == "test_mixed" else "train" |
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nominal_dataset = datasets.load_dataset("mnist", split=nom_split) |
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for x in nominal_dataset: |
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nominal_samples.append({ |
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"image": np.array(x["image"]), |
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"label": x["label"], |
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"text_label": f"p({_NAMES[x['label']]})=1", |
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"p_label": [1.0 if i == x["label"] else 0.0 for i in range(10)], |
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"is_ambiguous": False |
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}) |
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ambiguous_samples = list([x for i, x in _gen_amb_images()]) |
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all_samples = nominal_samples + ambiguous_samples |
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np.random.RandomState(42).shuffle(all_samples) |
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for i, x in enumerate(all_samples): |
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yield i, x |
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