mirror of
https://code.lenaisten.de/Lenaisten/advent22.git
synced 2024-12-25 05:53:00 +00:00
216 lines
5.7 KiB
Python
216 lines
5.7 KiB
Python
import itertools
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import random
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import re
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from datetime import date, datetime, timedelta
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from io import BytesIO
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from typing import Any, Awaitable, Callable, Iterable, Self, Sequence, TypeVar
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from fastapi.responses import StreamingResponse
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from PIL import Image
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from .config import get_config
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from .dav.webdav import WebDAV
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T = TypeVar("T")
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RE_IMG = re.compile(r"\.(gif|jpe?g|tiff?|png|bmp)$", flags=re.IGNORECASE)
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RE_TTF = re.compile(r"_(\d+)\.ttf$", flags=re.IGNORECASE)
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class Random(random.Random):
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@classmethod
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async def get(cls, bonus_salt: Any = "") -> Self:
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cfg = await get_config()
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return cls(f"{cfg.solution.clean}{cfg.random_seed}{bonus_salt}")
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def shuffled(self, population: Sequence[T]) -> Sequence[T]:
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return self.sample(population, k=len(population))
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def set_len(seq: Sequence[T], len: int) -> Sequence[T]:
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# `seq` unendlich wiederholen
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infinite = itertools.cycle(seq)
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# Die ersten `length` einträge nehmen
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return list(itertools.islice(infinite, len))
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def spread(
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given: Iterable[int],
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n: int,
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rnd: Random | None = None,
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) -> list[int]:
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"""
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Zu `given` ganzen Zahlen `n` zusätzliche Zahlen hinzunehmen.
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- Die neuen Werte sind im selben Zahlenbereich wie `given`
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- Zuerst werden alle Werte "zwischen" den `given` Werten genommen
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"""
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if n == 0:
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return []
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if len(set(given)) > 1:
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range_given = range(min(given), max(given) + 1)
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first_round = set(range_given) - set(given)
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elif len(set(given)) == 1:
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if (a := next(iter(given))) > 0:
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range_given = range(1, a + 1)
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else:
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range_given = range(1, n + 1)
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first_round = set(range_given) - set(given)
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else:
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range_given = range(1, n + 1)
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first_round = range_given
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result = sorted(first_round)[: min(n, len(first_round))]
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full_rounds = (n - len(result)) // len(range_given)
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result += list(range_given) * full_rounds
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remain = n - len(result)
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if rnd is None:
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result += list(range_given)[:remain]
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else:
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result += rnd.sample(range_given, remain)
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rnd.shuffle(result)
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return result
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def list_helper(
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directory: str,
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regex: re.Pattern[str],
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) -> Callable[[], Awaitable[list[str]]]:
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"""
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Finde alle Dateien im Verzeichnis `dir`, passend zu `re`
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"""
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async def _list_helper() -> list[str]:
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return [
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f"{directory}/{file}"
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for file in await WebDAV.list_files(directory=directory, regex=regex)
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]
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return _list_helper
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list_images_auto = list_helper("/images_auto", RE_IMG)
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list_images_manual = list_helper("/images_manual", RE_IMG)
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list_fonts = list_helper("/files", RE_TTF)
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async def load_image(file_name: str) -> Image.Image:
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"""
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Versuche, Bild aus Datei zu laden
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"""
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if not await WebDAV.exists(file_name):
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raise RuntimeError(f"DAV-File {file_name} does not exist!")
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return Image.open(BytesIO(await WebDAV.read_bytes(file_name)))
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async def api_return_ico(img: Image.Image) -> StreamingResponse:
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"""
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ICO-Bild mit API zurückgeben
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"""
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# JPEG-Daten in Puffer speichern
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img_buffer = BytesIO()
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img.resize(size=(256, 256), resample=Image.LANCZOS)
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img.save(img_buffer, format="ICO")
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img_buffer.seek(0)
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# zurückgeben
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return StreamingResponse(
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media_type="image/x-icon",
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content=img_buffer,
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)
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async def api_return_jpeg(img: Image.Image) -> StreamingResponse:
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"""
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JPEG-Bild mit API zurückgeben
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"""
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# JPEG-Daten in Puffer speichern
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img_buffer = BytesIO()
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img.save(img_buffer, format="JPEG", quality=85)
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img_buffer.seek(0)
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# zurückgeben
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return StreamingResponse(
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media_type="image/jpeg",
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content=img_buffer,
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)
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class EventDates:
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"""
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Events in einem Ereigniszeitraum
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"""
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__overall_duration: timedelta
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dates: dict[int, date]
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@property
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def first(self) -> date:
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"""Datum des ersten Ereignisses"""
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return self.dates[min(self.dates.keys())]
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def get_next(self, *, today: date) -> date | None:
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"""Datum des nächsten Ereignisses"""
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return next(
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(event for event in sorted(self.dates.values()) if event > today), None
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)
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@property
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def next(self) -> date | None:
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"""Datum des nächsten Ereignisses"""
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return self.get_next(today=date.today())
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@property
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def last(self) -> date:
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"""Datum des letzten Ereignisses"""
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return self.dates[max(self.dates.keys())]
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@property
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def end(self) -> date:
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"""Letztes Datum des Ereigniszeitraums"""
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return self.first + self.__overall_duration
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def __init__(
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self,
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*,
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# current date
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today: date,
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# month/day when events begin
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begin_month: int,
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begin_day: int,
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# events: e.g. a 2 means there is an event on the 2nd day
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# i.e. 1 day after begin
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# - assume sorted (ascending)
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events: list[int],
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# countdown to closing begins after last event
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close_after: int,
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) -> None:
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# account for the last event, then add closing period
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self.__overall_duration = timedelta(days=events[-1] - 1 + close_after)
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# the events may begin last year, this year or next year
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maybe_begin = (
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datetime(today.year + year_diff, begin_month, begin_day).date()
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for year_diff in (-1, 0, +1)
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)
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# find the first begin where the end date is in the future
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begin = next(
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begin for begin in maybe_begin if today <= (begin + self.__overall_duration)
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)
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# all event dates
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self.dates = {event: begin + timedelta(days=event - 1) for event in events}
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