forked from zaclys/searxng
243 lines
7.7 KiB
Python
243 lines
7.7 KiB
Python
# -*- coding: utf-8 -*-
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import os
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import pathlib
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import csv
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import hashlib
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import hmac
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import re
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import inspect
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import itertools
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from datetime import datetime, timedelta
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from typing import Iterable, List, Tuple, Dict
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from io import StringIO
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from codecs import getincrementalencoder
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from flask_babel import gettext, format_date
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from searx import logger, settings
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from searx.engines import Engine, OTHER_CATEGORY
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VALID_LANGUAGE_CODE = re.compile(r'^[a-z]{2,3}(-[a-zA-Z]{2})?$')
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logger = logger.getChild('webutils')
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class UnicodeWriter:
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"""
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A CSV writer which will write rows to CSV file "f",
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which is encoded in the given encoding.
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"""
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def __init__(self, f, dialect=csv.excel, encoding="utf-8", **kwds):
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# Redirect output to a queue
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self.queue = StringIO()
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self.writer = csv.writer(self.queue, dialect=dialect, **kwds)
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self.stream = f
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self.encoder = getincrementalencoder(encoding)()
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def writerow(self, row):
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self.writer.writerow(row)
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# Fetch UTF-8 output from the queue ...
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data = self.queue.getvalue()
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data = data.strip('\x00')
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# ... and re-encode it into the target encoding
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data = self.encoder.encode(data)
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# write to the target stream
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self.stream.write(data.decode())
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# empty queue
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self.queue.truncate(0)
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def writerows(self, rows):
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for row in rows:
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self.writerow(row)
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def get_themes(templates_path):
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"""Returns available themes list."""
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return os.listdir(templates_path)
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def get_hash_for_file(file: pathlib.Path) -> str:
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m = hashlib.sha1()
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with file.open('rb') as f:
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m.update(f.read())
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return m.hexdigest()
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def get_static_files(static_path: str) -> Dict[str, str]:
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static_files: Dict[str, str] = {}
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static_path_path = pathlib.Path(static_path)
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def walk(path: pathlib.Path):
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for file in path.iterdir():
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if file.name.startswith('.'):
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# ignore hidden file
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continue
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if file.is_file():
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static_files[str(file.relative_to(static_path_path))] = get_hash_for_file(file)
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if file.is_dir() and file.name not in ('node_modules', 'src'):
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# ignore "src" and "node_modules" directories
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walk(file)
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walk(static_path_path)
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return static_files
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def get_result_templates(templates_path):
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result_templates = set()
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templates_path_length = len(templates_path) + 1
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for directory, _, files in os.walk(templates_path):
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if directory.endswith('result_templates'):
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for filename in files:
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f = os.path.join(directory[templates_path_length:], filename)
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result_templates.add(f)
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return result_templates
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def new_hmac(secret_key, url):
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return hmac.new(secret_key.encode(), url, hashlib.sha256).hexdigest()
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def is_hmac_of(secret_key, value, hmac_to_check):
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hmac_of_value = new_hmac(secret_key, value)
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return len(hmac_of_value) == len(hmac_to_check) and hmac.compare_digest(hmac_of_value, hmac_to_check)
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def prettify_url(url, max_length=74):
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if len(url) > max_length:
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chunk_len = int(max_length / 2 + 1)
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return '{0}[...]{1}'.format(url[:chunk_len], url[-chunk_len:])
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else:
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return url
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def contains_cjko(s: str) -> bool:
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"""This function check whether or not a string contains Chinese, Japanese,
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or Korean characters. It employs regex and uses the u escape sequence to
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match any character in a set of Unicode ranges.
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Args:
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s (str): string to be checked.
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Returns:
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bool: True if the input s contains the characters and False otherwise.
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"""
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unicode_ranges = (
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'\u4e00-\u9fff' # Chinese characters
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'\u3040-\u309f' # Japanese hiragana
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'\u30a0-\u30ff' # Japanese katakana
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'\u4e00-\u9faf' # Japanese kanji
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'\uac00-\ud7af' # Korean hangul syllables
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'\u1100-\u11ff' # Korean hangul jamo
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)
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return bool(re.search(fr'[{unicode_ranges}]', s))
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def regex_highlight_cjk(word: str) -> str:
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"""Generate the regex pattern to match for a given word according
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to whether or not the word contains CJK characters or not.
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If the word is and/or contains CJK character, the regex pattern
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will match standalone word by taking into account the presence
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of whitespace before and after it; if not, it will match any presence
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of the word throughout the text, ignoring the whitespace.
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Args:
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word (str): the word to be matched with regex pattern.
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Returns:
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str: the regex pattern for the word.
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"""
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rword = re.escape(word)
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if contains_cjko(rword):
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return fr'({rword})'
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else:
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return fr'\b({rword})(?!\w)'
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def highlight_content(content, query):
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if not content:
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return None
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# ignoring html contents
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# TODO better html content detection
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if content.find('<') != -1:
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return content
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querysplit = query.split()
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queries = []
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for qs in querysplit:
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qs = qs.replace("'", "").replace('"', '').replace(" ", "")
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if len(qs) > 0:
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queries.extend(re.findall(regex_highlight_cjk(qs), content, flags=re.I | re.U))
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if len(queries) > 0:
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for q in set(queries):
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content = re.sub(
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regex_highlight_cjk(q), f'<span class="highlight">{q}</span>'.replace('\\', r'\\'), content
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)
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return content
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def searxng_l10n_timespan(dt: datetime) -> str: # pylint: disable=invalid-name
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"""Returns a human-readable and translated string indicating how long ago
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a date was in the past / the time span of the date to the present.
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On January 1st, midnight, the returned string only indicates how many years
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ago the date was.
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"""
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# TODO, check if timezone is calculated right # pylint: disable=fixme
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d = dt.date()
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t = dt.time()
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if d.month == 1 and d.day == 1 and t.hour == 0 and t.minute == 0 and t.second == 0:
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return str(d.year)
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if dt.replace(tzinfo=None) >= datetime.now() - timedelta(days=1):
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timedifference = datetime.now() - dt.replace(tzinfo=None)
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minutes = int((timedifference.seconds / 60) % 60)
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hours = int(timedifference.seconds / 60 / 60)
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if hours == 0:
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return gettext('{minutes} minute(s) ago').format(minutes=minutes)
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return gettext('{hours} hour(s), {minutes} minute(s) ago').format(hours=hours, minutes=minutes)
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return format_date(dt)
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def is_flask_run_cmdline():
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"""Check if the application was started using "flask run" command line
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Inspect the callstack.
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See https://github.com/pallets/flask/blob/master/src/flask/__main__.py
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Returns:
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bool: True if the application was started using "flask run".
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"""
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frames = inspect.stack()
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if len(frames) < 2:
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return False
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return frames[-2].filename.endswith('flask/cli.py')
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DEFAULT_GROUP_NAME = 'others'
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def group_engines_in_tab(engines: Iterable[Engine]) -> List[Tuple[str, Iterable[Engine]]]:
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"""Groups an Iterable of engines by their first non tab category"""
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def get_group(eng):
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non_tab_categories = [
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c for c in eng.categories if c not in list(settings['categories_as_tabs'].keys()) + [OTHER_CATEGORY]
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]
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return non_tab_categories[0] if len(non_tab_categories) > 0 else DEFAULT_GROUP_NAME
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groups = itertools.groupby(sorted(engines, key=get_group), get_group)
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def group_sort_key(group):
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return (group[0] == DEFAULT_GROUP_NAME, group[0].lower())
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sorted_groups = sorted(((name, list(engines)) for name, engines in groups), key=group_sort_key)
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def engine_sort_key(engine):
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return (engine.about.get('language', ''), engine.name)
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return [(groupname, sorted(engines, key=engine_sort_key)) for groupname, engines in sorted_groups]
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