Plex-Meta-Manager/modules/util.py
2021-03-30 01:50:53 -04:00

364 lines
14 KiB
Python

import logging, re, signal, sys, time, traceback
from datetime import datetime
try:
import msvcrt
windows = True
except ModuleNotFoundError:
windows = False
logger = logging.getLogger("Plex Meta Manager")
class TimeoutExpired(Exception):
pass
class Failed(Exception):
pass
def retry_if_not_failed(exception):
return not isinstance(exception, Failed)
separating_character = "="
screen_width = 100
days_alias = {
"monday": 0, "mon": 0, "m": 0,
"tuesday": 1, "tues": 1, "tue": 1, "tu": 1, "t": 1,
"wednesday": 2, "wed": 2, "w": 2,
"thursday": 3, "thurs": 3, "thur": 3, "thu": 3, "th": 3, "r": 3,
"friday": 4, "fri": 4, "f": 4,
"saturday": 5, "sat": 5, "s": 5,
"sunday": 6, "sun": 6, "su": 6, "u": 6
}
pretty_days = {
0: "Monday",
1: "Tuesday",
2: "Wednesday",
3: "Thursday",
4: "Friday",
5: "Saturday",
6: "Sunday"
}
pretty_months = {
1: "January",
2: "February",
3: "March",
4: "April",
5: "May",
6: "June",
7: "July",
8: "August",
9: "September",
10: "October",
11: "November",
12: "December"
}
pretty_seasons = {
"winter": "Winter",
"spring": "Spring",
"summer": "Summer",
"fall": "Fall"
}
pretty_names = {
"anidb_id": "AniDB ID",
"anidb_relation": "AniDB Relation",
"anidb_popular": "AniDB Popular",
"anilist_genre": "AniList Genre",
"anilist_id": "AniList ID",
"anilist_popular": "AniList Popular",
"anilist_relations": "AniList Relations",
"anilist_season": "AniList Season",
"anilist_studio": "AniList Studio",
"anilist_tag": "AniList Tag",
"anilist_top_rated": "AniList Top Rated",
"imdb_list": "IMDb List",
"imdb_id": "IMDb ID",
"letterboxd_list": "Letterboxd List",
"letterboxd_list_details": "Letterboxd List",
"mal_id": "MyAnimeList ID",
"mal_all": "MyAnimeList All",
"mal_airing": "MyAnimeList Airing",
"mal_upcoming": "MyAnimeList Upcoming",
"mal_tv": "MyAnimeList TV",
"mal_ova": "MyAnimeList OVA",
"mal_movie": "MyAnimeList Movie",
"mal_special": "MyAnimeList Special",
"mal_popular": "MyAnimeList Popular",
"mal_favorite": "MyAnimeList Favorite",
"mal_season": "MyAnimeList Season",
"mal_suggested": "MyAnimeList Suggested",
"mal_userlist": "MyAnimeList Userlist",
"plex_all": "Plex All",
"plex_collection": "Plex Collection",
"plex_search": "Plex Search",
"tautulli_popular": "Tautulli Popular",
"tautulli_watched": "Tautulli Watched",
"tmdb_actor": "TMDb Actor",
"tmdb_actor_details": "TMDb Actor",
"tmdb_collection": "TMDb Collection",
"tmdb_collection_details": "TMDb Collection",
"tmdb_company": "TMDb Company",
"tmdb_crew": "TMDb Crew",
"tmdb_crew_details": "TMDb Crew",
"tmdb_director": "TMDb Director",
"tmdb_director_details": "TMDb Director",
"tmdb_discover": "TMDb Discover",
"tmdb_keyword": "TMDb Keyword",
"tmdb_list": "TMDb List",
"tmdb_list_details": "TMDb List",
"tmdb_movie": "TMDb Movie",
"tmdb_movie_details": "TMDb Movie",
"tmdb_network": "TMDb Network",
"tmdb_now_playing": "TMDb Now Playing",
"tmdb_person": "TMDb Person",
"tmdb_popular": "TMDb Popular",
"tmdb_producer": "TMDb Producer",
"tmdb_producer_details": "TMDb Producer",
"tmdb_show": "TMDb Show",
"tmdb_show_details": "TMDb Show",
"tmdb_top_rated": "TMDb Top Rated",
"tmdb_trending_daily": "TMDb Trending Daily",
"tmdb_trending_weekly": "TMDb Trending Weekly",
"tmdb_writer": "TMDb Writer",
"tmdb_writer_details": "TMDb Writer",
"trakt_collected": "Trakt Collected",
"trakt_collection": "Trakt Collection",
"trakt_list": "Trakt List",
"trakt_list_details": "Trakt List",
"trakt_popular": "Trakt Popular",
"trakt_recommended": "Trakt Recommended",
"trakt_trending": "Trakt Trending",
"trakt_watched": "Trakt Watched",
"trakt_watchlist": "Trakt Watchlist",
"tvdb_list": "TVDb List",
"tvdb_list_details": "TVDb List",
"tvdb_movie": "TVDb Movie",
"tvdb_movie_details": "TVDb Movie",
"tvdb_show": "TVDb Show",
"tvdb_show_details": "TVDb Show"
}
pretty_ids = {
"anidbid": "AniDB",
"imdbid": "IMDb",
"mal_id": "MyAnimeList",
"themoviedb_id": "TMDb",
"thetvdb_id": "TVDb",
"tvdbid": "TVDb"
}
def tab_new_lines(data):
return str(data).replace("\n", "\n|\t ") if "\n" in str(data) else str(data)
def adjust_space(old_length, display_title):
display_title = str(display_title)
space_length = old_length - len(display_title)
if space_length > 0:
display_title += " " * space_length
return display_title
def make_ordinal(n):
n = int(n)
suffix = ["th", "st", "nd", "rd", "th"][min(n % 10, 4)]
if 11 <= (n % 100) <= 13:
suffix = "th"
return str(n) + suffix
def choose_from_list(datalist, description, data=None, list_type="title", exact=False):
if len(datalist) > 0:
if len(datalist) == 1 and (description != "collection" or datalist[0].title == data):
return datalist[0]
zero_option = f"Create New Collection: {data}" if description == "collection" else "Do Nothing"
message = f"Multiple {description}s Found\n0) {zero_option}"
for i, d in enumerate(datalist, 1):
if list_type == "title":
if d.title == data:
return d
message += f"\n{i}) {d.title}"
else:
message += f"\n{i}) [{d[0]}] {d[1]}"
if exact:
return None
print_multiline(message, info=True)
while True:
try:
selection = int(logger_input(f"Choose {description} number")) - 1
if selection >= 0: return datalist[selection]
elif selection == -1: return None
else: logger.info(f"Invalid {description} number")
except IndexError: logger.info(f"Invalid {description} number")
except TimeoutExpired:
if list_type == "title":
logger.warning(f"Input Timeout: using {data}")
return None
else:
logger.warning(f"Input Timeout: using {datalist[0][1]}")
return datalist[0]
else:
return None
def get_list(data, lower=False, split=True):
if isinstance(data, list): return data
elif isinstance(data, dict): return [data]
elif split is False: return [str(data)]
elif lower is True: return [d.strip().lower() for d in str(data).split(",")]
else: return [d.strip() for d in str(data).split(",")]
def get_int_list(data, id_type):
values = get_list(data)
int_values = []
for value in values:
try: int_values.append(regex_first_int(value, id_type))
except Failed as e: logger.error(e)
return int_values
def get_year_list(data, current_year, method):
final_years = []
values = get_list(data)
for value in values:
final_years.append(check_year(value, current_year, method))
return final_years
def check_year(year, current_year, method):
return check_number(year, method, minimum=1800, maximum=current_year)
def check_number(value, method, number_type="int", minimum=None, maximum=None):
if number_type == "int":
try: num_value = int(str(value))
except ValueError: raise Failed(f"Collection Error: {method}: {value} must be an integer")
elif number_type == "float":
try: num_value = float(str(value))
except ValueError: raise Failed(f"Collection Error: {method}: {value} must be a number")
else: raise Failed(f"Number Type: {number_type} invalid")
if minimum is not None and maximum is not None and (num_value < minimum or num_value > maximum):
raise Failed(f"Collection Error: {method}: {num_value} must be between {minimum} and {maximum}")
elif minimum is not None and num_value < minimum:
raise Failed(f"Collection Error: {method}: {num_value} is less then {minimum}")
elif maximum is not None and num_value > maximum:
raise Failed(f"Collection Error: {method}: {num_value} is greater then {maximum}")
else:
return num_value
def check_date(date_text, method, return_string=False, plex_date=False):
try: date_obg = datetime.strptime(str(date_text), "%Y-%m-%d" if plex_date else "%m/%d/%Y")
except ValueError: raise Failed(f"Collection Error: {method}: {date_text} must match pattern {'YYYY-MM-DD e.g. 2020-12-25' if plex_date else 'MM/DD/YYYY e.g. 12/25/2020'}")
return str(date_text) if return_string else date_obg
def logger_input(prompt, timeout=60):
if windows: return windows_input(prompt, timeout)
elif hasattr(signal, "SIGALRM"): return unix_input(prompt, timeout)
else: raise SystemError("Input Timeout not supported on this system")
def alarm_handler(signum, frame):
raise TimeoutExpired
def unix_input(prompt, timeout=60):
prompt = f"| {prompt}: "
signal.signal(signal.SIGALRM, alarm_handler)
signal.alarm(timeout)
try: return input(prompt)
finally: signal.alarm(0)
def old_windows_input(prompt, timeout=60, timer=time.monotonic):
prompt = f"| {prompt}: "
sys.stdout.write(prompt)
sys.stdout.flush()
endtime = timer() + timeout
result = []
while timer() < endtime:
if msvcrt.kbhit():
result.append(msvcrt.getwche())
if result[-1] == "\n":
out = "".join(result[:-1])
logger.debug(f"{prompt[2:]}{out}")
return out
time.sleep(0.04)
raise TimeoutExpired
def windows_input(prompt, timeout=5):
sys.stdout.write(f"| {prompt}: ")
sys.stdout.flush()
result = []
start_time = time.time()
while True:
if msvcrt.kbhit():
char = msvcrt.getwche()
if ord(char) == 13: # enter_key
out = "".join(result)
print("")
logger.debug(f"{prompt}: {out}")
return out
elif ord(char) >= 32: #space_char
result.append(char)
if (time.time() - start_time) > timeout:
print("")
raise TimeoutExpired
def print_multiline(lines, info=False, warning=False, error=False, critical=False):
for i, line in enumerate(str(lines).split("\n")):
if critical: logger.critical(line)
elif error: logger.error(line)
elif warning: logger.warning(line)
elif info: logger.info(line)
else: logger.debug(line)
if i == 0:
logger.handlers[1].setFormatter(logging.Formatter(" " * 65 + "| %(message)s"))
logger.handlers[1].setFormatter(logging.Formatter("[%(asctime)s] %(filename)-27s %(levelname)-10s | %(message)s"))
def print_stacktrace():
print_multiline(traceback.format_exc())
def my_except_hook(exctype, value, tb):
for line in traceback.format_exception(etype=exctype, value=value, tb=tb):
print_multiline(line, critical=True)
def get_id_from_imdb_url(imdb_url):
match = re.search("(tt\\d+)", str(imdb_url))
if match: return match.group(1)
else: raise Failed(f"Regex Error: Failed to parse IMDb ID from IMDb URL: {imdb_url}")
def regex_first_int(data, id_type, default=None):
match = re.search("(\\d+)", str(data))
if match:
return int(match.group(1))
elif default:
logger.warning(f"Regex Warning: Failed to parse {id_type} from {data} using {default} as default")
return int(default)
else:
raise Failed(f"Regex Error: Failed to parse {id_type} from {data}")
def remove_not(method):
return method[:-4] if method.endswith(".not") else method
def centered(text, do_print=True):
if len(text) > screen_width - 2:
raise Failed("text must be shorter then screen_width")
space = screen_width - len(text) - 2
if space % 2 == 1:
text += " "
space -= 1
side = int(space / 2)
final_text = f"{' ' * side}{text}{' ' * side}"
if do_print:
logger.info(final_text)
return final_text
def separator(text=None):
logger.handlers[0].setFormatter(logging.Formatter(f"%(message)-{screen_width - 2}s"))
logger.handlers[1].setFormatter(logging.Formatter(f"[%(asctime)s] %(filename)-27s %(levelname)-10s %(message)-{screen_width - 2}s"))
logger.info(f"|{separating_character * screen_width}|")
if text:
text_list = text.split("\n")
for t in text_list:
logger.info(f"| {centered(t, do_print=False)} |")
logger.info(f"|{separating_character * screen_width}|")
logger.handlers[0].setFormatter(logging.Formatter(f"| %(message)-{screen_width - 2}s |"))
logger.handlers[1].setFormatter(logging.Formatter(f"[%(asctime)s] %(filename)-27s %(levelname)-10s | %(message)-{screen_width - 2}s |"))
def print_return(length, text):
print(adjust_space(length, f"| {text}"), end="\r")
return len(text) + 2
def print_end(length, text=None):
if text: logger.info(adjust_space(length, text))
else: print(adjust_space(length, " "), end="\r")