ark_example / ark_example.py
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# Copyright 2020 The HuggingFace Datasets Authors and the current dataset script contributor.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""
This dataset contains example data for running through the multiplexed imaging data pipeline in
Ark Analysis: https://github.com/angelolab/ark-analysis
"""
import json
import os
import datasets
import pathlib
import glob
import tifffile
import xarray as xr
import numpy as np
# Find for instance the citation on arxiv or on the dataset repo/website
_CITATION = """\
@InProceedings{huggingface:dataset,
title = {Ark Analysis Example Dataset},
author={Angelo Lab},
year={2022}
}
"""
# TODO: Add description of the dataset here
# You can copy an official description
_DESCRIPTION = """\
This dataset contains 11 Field of Views (FOVs), each with 22 channels.
"""
_HOMEPAGE = "https://github.com/angelolab/ark-analysis"
_LICENSE = "https://github.com/angelolab/ark-analysis/blob/main/LICENSE"
# TODO: Add link to the official dataset URLs here
# The HuggingFace Datasets library doesn't host the datasets but only points to the original files.
# This can be an arbitrary nested dict/list of URLs (see below in `_split_generators` method)
_URL_REPO = "https://huggingface.co/datasets/angelolab/ark_example/resolve/main"
_URLS = {"base_dataset": f"{_URL_REPO}/data/input_data.zip"}
"""
Dataset Fov renaming:
TMA2_R8C3 -> fov0
TMA6_R4C5 -> fov1
TMA7_R5C4 -> fov2
TMA10_R7C3 -> fov3
TMA11_R9C6 -> fov4
TMA13_R8C5 -> fov5
TMA17_R9C2 -> fov6
TMA18_R9C2 -> fov7
TMA21_R2C5 -> fov8
TMA21_R12C6 -> fov9
TMA24_R9C1 -> fov10
"""
# TODO: Name of the dataset usually match the script name with CamelCase instead of snake_case
class ArkExample(datasets.GeneratorBasedBuilder):
"""The Dataset consists of 11 FOVs"""
VERSION = datasets.Version("0.0.1")
# This is an example of a dataset with multiple configurations.
# If you don't want/need to define several sub-sets in your dataset,
# just remove the BUILDER_CONFIG_CLASS and the BUILDER_CONFIGS attributes.
# If you need to make complex sub-parts in the datasets with configurable options
# You can create your own builder configuration class to store attribute, inheriting from datasets.BuilderConfig
# BUILDER_CONFIG_CLASS = MyBuilderConfig
# You will be able to load one or the other configurations in the following list with
# data = datasets.load_dataset('my_dataset', 'base_dataset')
# data = datasets.load_dataset('my_dataset', 'dev_dataset')
BUILDER_CONFIGS = [
datasets.BuilderConfig(
name="base_dataset",
version=VERSION,
description="This dataset contains only the 12 FOVs.",
),
datasets.BuilderConfig(
name="dev_dataset",
version=VERSION,
description="This dataset is a superset of the base_dataset, and contains intermediate data for all notebooks. \
Therefore you can start at any notebook with this dataset.",
),
]
DEFAULT_CONFIG_NAME = (
"base_dataset" # It's not mandatory to have a default configuration. Just use one if it make sense.
)
def _info(self):
# This is the name of the configuration selected in BUILDER_CONFIGS above
if self.config.name == "base_dataset":
features = datasets.Features(
{
"Channel Data": datasets.Sequence(datasets.Image()),
"Channel Names": datasets.Sequence(datasets.Value("string")),
"Data Path": datasets.Value("string"),
}
)
else: # This is an example to show how to have different features for "first_domain" and "second_domain"
features = datasets.Features(
{
"sentence": datasets.Value("string"),
"option2": datasets.Value("string"),
"second_domain_answer": datasets.Value("string")
# These are the features of your dataset like images, labels ...
}
)
return datasets.DatasetInfo(
# This is the description that will appear on the datasets page.
description=_DESCRIPTION,
# This defines the different columns of the dataset and their types
features=features, # Here we define them above because they are different between the two configurations
# If there's a common (input, target) tuple from the features, uncomment supervised_keys line below and
# specify them. They'll be used if as_supervised=True in builder.as_dataset.
# supervised_keys=("sentence", "label"),
# Homepage of the dataset for documentation
homepage=_HOMEPAGE,
# License for the dataset if available
license=_LICENSE,
# Citation for the dataset
citation=_CITATION,
)
def _split_generators(self, dl_manager):
# TODO: This method is tasked with downloading/extracting the data and defining the splits depending on the configuration
# If several configurations are possible (listed in BUILDER_CONFIGS), the configuration selected by the user is in self.config.name
# dl_manager is a datasets.download.DownloadManager that can be used to download and extract URLS
# It can accept any type or nested list/dict and will give back the same structure with the url replaced with path to local files.
# By default the archives will be extracted and a path to a cached folder where they are extracted is returned instead of the archive
urls = _URLS[self.config.name]
data_dir = dl_manager.download_and_extract(urls)
return [
datasets.SplitGenerator(
name="base_dataset",
# These kwargs will be passed to _generate_examples
gen_kwargs={"filepath": pathlib.Path(data_dir)},
),
]
# method parameters are unpacked from `gen_kwargs` as given in `_split_generators`
def _generate_examples(self, filepath: pathlib.Path):
# Get all TMA paths
file_paths = list(pathlib.Path(filepath / "input_data").glob("*"))
# Loop over all the TMAs
for fp in file_paths:
# Get the TMA FOV Name
fov_name = fp.stem
# Get all channels per TMA FOV
channel_paths = fp.glob("*.tiff")
chan_data = []
chan_names = []
for chan in channel_paths:
chan_name = chan.stem
chan_image: np.ndarray = tifffile.imread(chan)
chan_data.append(chan_image)
chan_names.append(chan_name)
if self.config.name == "base_dataset":
yield fov_name, {
"Channel Data": chan_data,
"Channel Names": chan_names,
"Data Path": filepath.as_posix(),
}