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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.
"""TODO: Add a description here."""
import evaluate
import datasets
# TODO: Add BibTeX citation
_CITATION = """\
@InProceedings{huggingface:module,
title = {A great new module},
authors={huggingface, Inc.},
year={2020}
}
"""
# TODO: Add description of the module here
_DESCRIPTION = """\
Evaluate structured output formatting for generated text.
- considers header / column / tag / key names
- DOES NOT consider the cell / row values specifically
Formats:
- [] Custom
- [] Markdown tables
- [] HTML tables
- [] JSON
- [] XML
- [] CSV / TSV
"""
# TODO: Add description of the arguments of the module here
_KWARGS_DESCRIPTION = """
Calculates how well the `structure` of the predictions matches the `structure` of the references.
Args:
predictions: list of strings to score. Each predictions
should be a string with tokens separated by spaces.
references: list of reference for each prediction. Each
reference should be a string with tokens separated by spaces.
invariance: bool, whether to consider the order of the columns / tags / keys.
Returns:
kaushiks_criteria: kaushiks_criteria score.
Examples:
Examples should be written in doctest format, and should illustrate how
to use the function.
>>> my_new_module = evaluate.load("DoctorSlimm/kaushiks_criteria")
>>> results = my_new_module.compute(
references=['<table><tr><td>1</td><td>2</td></tr></table>'],
predictions=['<table><tr><td>1</td><td>2</td></tr></table>']
)
>>> print(results)
{'accuracy': 1.0}
"""
# TODO: Define external resources urls if needed
BAD_WORDS_URL = "http://url/to/external/resource/bad_words.txt"
@evaluate.utils.file_utils.add_start_docstrings(_DESCRIPTION, _KWARGS_DESCRIPTION)
class kaushiks_criteria(evaluate.Metric):
"""TODO: Short description of my evaluation module."""
def _info(self):
# TODO: Specifies the evaluate.EvaluationModuleInfo object
return evaluate.MetricInfo(
# This is the description that will appear on the modules page.
module_type="metric",
description=_DESCRIPTION,
citation=_CITATION,
inputs_description=_KWARGS_DESCRIPTION,
# This defines the format of each prediction and reference
features=datasets.Features({
'predictions': datasets.Value('string'),
'references': datasets.Value('string'),
}),
# Homepage of the module for documentation
homepage="http://module.homepage",
# Additional links to the codebase or references
codebase_urls=["http://github.com/path/to/codebase/of/new_module"],
reference_urls=["http://path.to.reference.url/new_module"]
)
def _download_and_prepare(self, dl_manager):
"""Optional: download external resources useful to compute the scores"""
# TODO: Download external resources if needed
import evaluate
evaluate.load('exact_match')
pass
def normalize_fn(self, example, text_field='text'):
"""
parse output text into headers, rows, and records
- parse row by row (incomplete rows)
:param example:
:return:
Note: this does not handle special tokens
expected input format:
| col1 | col2 | col3 | <- start and trailing pipes required
| ---- | ---- | ---- | <- exactly 3x '-' per column
| val1 | val2 | val3 |
| ... | ... | ... |
"""
headers, sep_row, row_counts = "", "", []
rows = dict(example)[text_field].strip().split('\n')
# parse headers
if len(rows) > 0:
headers = rows[0].strip()
# parse separator row
if len(rows) > 1:
sep_row = rows[1].strip()
# parse row cell counts
if len(rows) > 2:
data_rows = rows[2:]
for row in data_rows:
cell_counts = len(row.strip('|').split('|'))
row_counts.append(str(int(cell_counts)))
return {
'headers': headers,
'sep_row': sep_row,
'row_counts': ''.join(row_counts)
}
def _compute(self, predictions, references, num_proc=None):
"""
compute the quality of the output format with respect to the reference format
* column names match
* column order matches
* total row count
* number of cells in each row
:param predictions:
:param references:
:return:
"""
from datasets import Dataset, DatasetDict
pred_ds = Dataset.from_dict({'text': predictions})
refs_ds = Dataset.from_dict({'text': references})
proc_ds = DatasetDict({'predictions': pred_ds, 'references': refs_ds})
proc_ds = proc_ds.map(self.normalize_fn, num_proc=num_proc)
# compare headers
exact_match = evaluate.load('exact_match')
exact_match_headers = exact_match.compute(
predictions=proc_ds['predictions']['headers'],
references=proc_ds['references']['headers']
)['exact_match']
# compare separator row
exact_match_sep_row = exact_match.compute(
predictions=proc_ds['predictions']['sep_row'],
references=proc_ds['references']['sep_row']
)['exact_match']
# compare row counts
exact_match_row_counts = exact_match.compute(
predictions=proc_ds['predictions']['row_counts'],
references=proc_ds['references']['row_counts']
)['exact_match']
# compute kaushiks_criteria
score = (exact_match_headers + exact_match_sep_row + exact_match_row_counts) / 3.0
return {
'kaushiks_criteria': score,
'exact_match_headers': exact_match_headers,
'exact_match_sep_row': exact_match_sep_row,
'exact_match_row_counts': exact_match_row_counts,
} |