Main refactoring

This commit is contained in:
2024-11-10 15:03:44 +01:00
parent 28fdfa0982
commit 9a0f869839
20 changed files with 2349 additions and 2280 deletions
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import json
import logging
import os
import random
import re
import shutil
from datetime import datetime
import discord
import numpy as np
from discord.ext import commands, tasks
from ai_functions import get_random_cyclic_message
from constants import ENCODING, LOGFILE, LOGSTORE, MEMORY_FIVE_MUZYKA, MEMORY_FIVE_SIARA
class AdministrationModule(commands.Cog):
def __init__(self, bot, logger_name):
self.bot = bot
self.logger = logging.getLogger(logger_name)
@commands.hybrid_command(
name="update_banlist",
description="Jeśli nie wiesz jak użyć tej komendy to nawet nie próbuj",
guild=discord.Object(id=664789470779932693),
)
async def update_banlist(self, ctx):
"""
Update a banlist in a Discord guild from preprovided list in channel.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
contains information about the context in which the command was invoked, such as the message, the
channel, the server, and the user who invoked the command. This information can be used to perform
various actions, such
"""
async with ctx.channel.typing():
allowed = False
for role in ctx.author.roles:
if role.name == "Jarl":
allowed = True
if ctx.channel.id != 1102190666827702342:
# trunk-ignore(codespell/misspelled)
await ctx.send("Nie wydaje mnie sie")
elif not allowed:
await ctx.send("Idź bo Cię zdziele")
else:
tobancunter = 0
async with ctx.typing():
# 1. get list of users posted on channel for banning
channel = ctx.channel
messages = [
message async for message in channel.history(limit=None)
]
ids_to_ban = []
for message in messages:
lines = message.content.split("\n")
for line in lines:
match = re.search(
"\\d{18}",
line,
# trunk-ignore(codespell/misspelled)
) # poprawilem backslash na podwojny bo linter sie czepial
if match:
ids_to_ban.append(match.group())
tobancunter += 1
# 2. get list of already banned users for all servers Conjurer
# has rights to
for guild in self.bot.guilds:
bancunter = 0
# trunk-ignore(codespell/misspelled)
self.logger.info("Serwer: %s", guild)
current_banlist = []
permission = True
try:
async for entry in guild.bans(limit=None):
current_banlist.append(entry.user.id)
bancunter += 1
except BaseException: # pylint: disable=broad-exception-caught
permission = False
if permission:
# 3. compare lists ban only users on list 2 and not on
# list 1
cunter_counter = 0
bad_id_cunter_counter = 0
ban_list = np.setdiff1d(ids_to_ban, current_banlist)
for ident in ban_list:
try:
tmp_user = await self.bot.fetch_user(int(ident))
await guild.ban(
tmp_user,
reason="Automatyczna lista banów",
delete_message_seconds=0,
)
cunter_counter += 1
except discord.NotFound:
self.logger.info(
"Znaleziono uzyszkodnika ktory juz nie ma konta"
)
bad_id_cunter_counter += 1
# 4. return message success/failure - how many banned
await ctx.send(
"Obecnie na serwerze {guild} jest {bancunter} zbanowanych użytkowników. Znaleziono na tym kanale {tobancunter} id użytkowników do zbanowania. Zbanowano {cunter_counter} użytkowników. Na liście jest {bad_id_cunter_counter} użytkowników którzy skasowali już konto"
)
else:
await ctx.send(
f"Nie mam na serwerze {guild} uprawnień do banowania. :()"
)
await ctx.send("Zrobione tak czy inaczej")
async def archive_channel(self, channel_no):
"""
The function `archive_channel` retrieves messages from a specified channel, processes them, and
saves the data in a JSON file with a timestamp in the filename.
:param channel_no: The `archive_channel` function you provided seems to be incomplete. It looks like
you are trying to archive messages from a Discord channel into a JSON file
"""
channel = self.bot.get_channel(channel_no)
messages = [message async for message in channel.history(limit=None)]
path_newfile = f"{LOGSTORE}channeldump_{channel_no}_{datetime.now()}.json"
new_data = []
for message in messages:
new_data.append(message)
with open(path_newfile, "x", encoding=ENCODING) as new_file:
new_file.seek(0)
json.dump(new_data, new_file, indent=4)
@tasks.loop(seconds=120)
async def check_self(self):
"""
The function `check_data` periodically checks for conditions to send messages and manage log files
in a Discord channel.
"""
# logger.info("Heartbeat of cleanup proc")
channel = self.bot.get_channel(1062047367337095268)
messages = [message async for message in channel.history(limit=1)]
for mess in messages:
channel = mess.channel
if os.path.getsize(LOGFILE) > 60000000:
await channel.send(
"*Conjurer porządkuje bar, wypala szklanki do czysta miotaczem płomieni ze swojej zbroi i ogólnie wygląda na zajętego....*"
)
async with channel.typing():
shutil.copyfile(LOGFILE, f"{LOGSTORE}discord{datetime.now()}")
self.logger.info("Log rollover")
handlers = self.logger.handlers
for handler in handlers:
if isinstance(handler, logging.handlers.RotatingFileHandler):
handler.doRollover()
await channel.send(
"*Przeciąga się za barem* No dobra - porobione to można dalej pi... *Zauważa spojrzenie Hammera* ...sać powieści o naszym wspaniałym barze SZEFIE!"
)
if os.path.getsize(MEMORY_FIVE_MUZYKA) > 3000000:
await channel.send(
"*Conjurer porządkuje bar, wypala szklanki do czysta miotaczem płomieni ze swojej zbroi i ogólnie wygląda na zajętego....*"
)
async with channel.typing():
path_newfile = f"{LOGSTORE}pamiec_muzyki{datetime.now()}.json"
self.logger.info(path_newfile)
with open(
MEMORY_FIVE_MUZYKA, "r+", encoding=ENCODING
) as file_music_memory:
with open(path_newfile, "x", encoding=ENCODING) as new_file:
# First we load existing data into a dict.
file_data = json.load(file_music_memory)
new_data = []
new_data.append(file_data[0])
new_data.extend(file_data[:-20])
file_music_memory.truncate(0)
file_music_memory.seek(0)
# convert back to json.
new_file.seek(0)
json.dump(new_data, file_music_memory, indent=4)
json.dump(file_data, new_file, indent=4)
await channel.send(
"*Przeciąga się za barem* No dobra - porobione to można dalej pi... *Zauważa spojrzenie Hammera* ...sać powieści o naszym wspaniałym barze SZEFIE!"
)
if os.path.getsize(MEMORY_FIVE_SIARA) > 3000000:
path_newfile = f"{LOGSTORE}pamiec_rozmow{datetime.now()}.json"
self.logger.info(path_newfile)
await channel.send(
"*Conjurer porządkuje bar, ścina lekkim laserem pulsacyjnym powierzchnie baru o grubości kilku mikronów i ogólnie wygląda na zajętego....*"
)
with open(MEMORY_FIVE_SIARA, "r+", encoding=ENCODING) as file:
with open(path_newfile, "x", encoding=ENCODING) as new_file:
# First we load existing data into a dict.
file_data = json.load(file)
new_data = []
new_data.append(file_data[0])
new_data.extend(file_data[-20])
file.truncate(0)
file.seek(0)
new_file.seek(0)
# convert back to json.
json.dump(new_data, file, indent=4)
json.dump(file_data, new_file, indent=4)
await channel.send(
"*Przeciąga się za barem* No dobra - porobione to można dalej pi... *Zauważa spojrzenie Hammera* eprzyć o głupotach z klientami... Szefie... *Bierze 'ukradkowy' łyk z piersiówki*"
)
global LAST_SPONTANEOUS_CALL
global TIME_BETWEEN_CALLS
tdelta = datetime.now() - LAST_SPONTANEOUS_CALL
tdelta = tdelta.total_seconds()
if tdelta > TIME_BETWEEN_CALLS:
self.logger.info("Spontaneous call")
# trunk-ignore(bandit/B311)
TIME_BETWEEN_CALLS = random.randint(
10200, 272800
) # temp random, set after each call
self.logger.debug(TIME_BETWEEN_CALLS)
LAST_SPONTANEOUS_CALL = datetime.now()
async with channel.typing():
message = await get_random_cyclic_message()
self.logger.info("Odpowiedz")
self.logger.info(message)
await channel.send(message)
async def setup(bot):
logger = logging.getLogger("discord")
am = AdministrationModule(bot, "discord")
await bot.add_cog(am)
am.check_self.start()
logger.info("Loading administration commands module done")
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#ai command cogs # ai command cogs
import logging
import re
import sys
from datetime import datetime
import discord
import openai
import requests
from discord.ext import commands
from ai_functions import handle_response
from constants import (
DATA,
GRAPHICS_PATH,
INITIAL_TIME_WAIT,
MASTER_TIMEOUT,
OPENAICLIENT,
)
class Events(commands.Cog):
def __init__(self, bot):
self.bot = bot
self.logger = logging.getLogger("discord")
@commands.Cog.listener()
async def on_ready(self):
print("Ready!")
print("Logged in as ---->", self.bot.user)
print("ID:", self.bot.user.id)
@commands.Cog.listener()
async def on_message(self, message):
"""
Handle incoming messages in a Discord server, perform various
checks and actions based on the content and context of the message, and respond accordingly.
:param message: The message object that is received when a user sends a message in a Discord server
or DM. The code is checking various conditions and performing actions based on the content of the
message and the context in which it was sent. It also includes TODOs for future improvements
:return: The function `on_message` is being returned.
"""
vykidailo = False
channel = None
if message.author == self.bot.user:
return
if isinstance(message.author, discord.Member):
for role in message.author.roles:
if role.name == "Vykidailo":
vykidailo = True
if ("Conjurer Śpij Słodko Aniołku" in message.content) and vykidailo:
sys.exit()
# kanal bez bota
if message.channel.id == 1095985579147141202:
return
# wentylacja
if message.channel.id == 1083804024173764739:
return
# legendy
if message.channel.id == 1084448332841230388:
return
# interrogation booth
if message.channel.id == 1111625221171052595:
return
if isinstance(message.channel, discord.DMChannel):
if message.author.id == 346956223645614080:
await message.reply("Witam witam")
return
else:
channel = self.bot.get_channel(1064888712565100614)
await channel.send("Słyszałem ja żem że: " + message.content)
return
channel = message.channel
await self.bot.process_commands(message)
message.content = message.content.lower()
tdelta = datetime.now() - MASTER_TIMEOUT
tdelta = tdelta.total_seconds()
if "opowiedz o fabryczce" in message.content:
await message.reply(DATA["fabryczka"])
if "opowiedz mi o fabryczce" in message.content:
await message.reply(DATA["fabryczka"])
if tdelta > INITIAL_TIME_WAIT:
for word in self.word_reactions:
if re.search(r"\b" + word + r"\b", message.content):
tdelta = datetime.now() - self.word_reactions[word][2]
tdelta = tdelta.total_seconds()
security_clearance = self.word_reactions[word][4]
reaction = self.word_reactions[word][3]
if tdelta > self.word_reactions[word][1]:
# TODO: to zrobic reactiony
self.logger.info("Ping z procedury reakcji")
if reaction:
emoji = self.bot.get_emoji(self.word_reactions[word][0])
await message.add_reaction(emoji)
elif security_clearance and vykidailo:
await message.reply(self.word_reactions[word][0])
elif not security_clearance:
await message.reply(self.word_reactions[word][0])
self.word_reactions[word][2] = datetime.now()
# TODO: drobne literówki, mentiony, spacja przed dwukropkiem. napraw.
kondziu_mentioned = False
for mention in message.mentions:
if mention == self.bot.user:
kondziu_mentioned = True
if kondziu_mentioned or "conjurer:" in message.content:
async with channel.typing():
self.logger.debug("Procedura chatu")
message.content = message.content.replace("conjurer: ", "")
if message.author.nick:
username = message.author.nick
else:
username = message.author.name
vykidailo = False
bartender = False
if kondziu_mentioned:
prompt = message.clean_content
else:
prompt = message.content
for role in message.author.roles:
if role.name == "Vykidailo":
vykidailo = True
if role.name == "Bartender":
bartender = True
global MESSAGE_TABLE # pylint: disable=global-statement
result, MESSAGE_TABLE = await handle_response(
prompt,
vykidailo,
bartender,
MESSAGE_TABLE,
username,
"CONVERSATION",
)
if len(result) < 1500:
await message.reply(result)
else:
while len(result) > 1500:
await message.reply(result[:1500])
result = result[1500:]
if "imaginuje sobie:" in message.content:
async with channel.typing():
self.logger.info("Poczatek procedury obrazkowej")
message.content = message.content.replace("imaginuje sobie: ", "")
self.logger.debug("Wywolanie obrazka: %s", message.content)
try:
response = await OPENAICLIENT.images.generate(
model="dall-e-3",
prompt=message.content,
size="1024x1024",
quality="standard",
n=1,
)
except openai.APITimeoutError as e:
# Handle timeout error, e.g. retry or log
await message.reply(
f"*Kondziu patrzy na terminal, czeka, czeka, czeka,.... Jeszcze chwile czeka Przypierdala w niego pięścią....* Nie mogę się połączyć z Openai spróbuj od nowa. *Na ekranie pojawia się*: {e}"
)
except openai.APIConnectionError as e:
await message.reply(
f"*Kondziu patrzy na terminal, chwile się zastanawia. Przypierdala w niego pięścią....* Nie mogę się połączyć z Openai. *Na ekranie pojawia się*: {e}"
)
except openai.BadRequestError as e:
# Handle invalid request error, e.g. validate parameters or log
if message.author.nick:
username = message.author.nick
else:
username = message.author.name
resp, _ = await handle_response(
f"Wytlumacz jakie sa zasady dotyczące treści które możesz generować używając Dalle. Wytłumacz błąd {e} prostym językiem. Przeproś za nadmierną cenzurę. Wytłumacz co mogło być nie tak w prompcie '{message.content}'",
True,
True,
MESSAGE_TABLE,
username,
"RANDOM",
)
await message.reply(
f"Sorki, cenzura: {resp}. Jak chcesz to są kanały na nudle #sexy-foteczky i #kanal-do-fapania *Na ekranie pojawia się: {e}"
)
except openai.AuthenticationError as e:
# Handle authentication error, e.g. check credentials or log
await message.reply(
f"*Kondziu patrzy na terminal, chwile się zastanawia. Przypierdala w niego pięścią....* Wołaj szefa - coś się z hasłem zjebało. *Na terminalu pojawia się:* {e}"
)
except openai.PermissionDeniedError as e:
# Handle permission error, e.g. check scope or log
await message.reply(
(
f"*Kondziu patrzy na terminal, chwile się zastanawia. Przypierdala w niego pięścią....* Wołaj szefa - coś się z uprawnieniami zjebało. *Na terminalu pojawia się:* {e}"
)
)
except openai.RateLimitError as e:
await message.reply(
f"*Kondziu patrzy na terminal* Wołaj szefa. Zapłacić rachunki za AI trzeba. Jak chcesz to się na #zebranie dorzuć. {e}"
)
except openai.APIError as e:
# Handle API error, e.g. retry or log
await message.reply(
f"*Kondziu nurkuje za bar, terminal wybucha. Przed tobą ląduje pergamin zapisany pięknym gotykiem a na nim*: {e}"
)
if response:
self.logger.info(response)
image_url = response.data[0].url
image_desc = response.data[0].revised_prompt
self.logger.debug("Wynikowy obrazek pod url: %s", image_url)
response = requests.get(image_url, timeout=360)
temp_file_name = message.content + ".png"
temp_file_name = GRAPHICS_PATH + message.content + ".png"
with open(temp_file_name, "wb") as dalle_file:
dalle_file.write(response.content)
self.logger.info("Koniec procedury obrazkowej.")
fnord = discord.File(
temp_file_name, spoiler=False, description=message.content
)
await message.reply(f"{image_desc}", file=fnord)
# *=========================================== Define Functions
async def setup(bot):
logger = logging.getLogger("discord")
await bot.add_cog(Events(bot))
logger.info("Loading ai events module done")
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import asyncio
import json
import logging
import random
import openai
import tiktoken import tiktoken
from constants import (
CYCLIC_WORDS,
ENCODING,
GPT_SETTINGS,
MEMORY_FIVE_MUZYKA,
MEMORY_FIVE_SIARA,
MESSAGE_TABLE,
MESSAGE_TABLE_MUZYKA,
OPENAICLIENT,
WORD_REACTIONS,
)
def num_tokens_from_string(message, model): def num_tokens_from_string(message, model):
""" """
@@ -24,3 +41,254 @@ def num_tokens_from_string(message, model):
num_tokens += tokens_per_name num_tokens += tokens_per_name
num_tokens += 3 # every reply is primed with <|start|>assistant<|message|> num_tokens += 3 # every reply is primed with <|start|>assistant<|message|>
return num_tokens return num_tokens
async def handle_response(
prompt, vykidailo, bartender, history, username, request_type
):
"""
Handle responses by appending them to a history, use OpenAI to
generate a response, and then append the generated response to the history.
:param prompt: The prompt for the OpenAI chatbot to generate a response to
:param vykidailo: It is a boolean variable that indicates whether the user invoking the function is
an administrator or not
:param bartender: The bartender parameter is a boolean value indicating whether the user making the
request is a bartender or not
:param history: A list containing the conversation history between the user and the assistant
:param username: The username of the user who initiated the conversation
:param music: The "music" parameter is a boolean value that indicates whether the conversation is
related to music or not. If it is True, the conversation history will be stored in a different file
and the response will be generated using a different model
:return: The function `handle_response` returns a tuple containing the `result` and `MESSAGE_TABLE`.
"""
# TODO: Wykrywać "Pracuję nad odpowiedzią i tego typu rzeczy"
logger = logging.getLogger("discord")
logger.info("Wywolanie procedury openai z promptem: %s", prompt)
temp = {"role": "user", "content": username + ":" + prompt}
if vykidailo or bartender:
logger.info("Administrator coś chciał")
history.append(temp)
if request_type == "MUSIC":
with open(MEMORY_FIVE_MUZYKA, "r+", encoding=ENCODING) as file_music_memory:
# First we load existing data into a dict.
file_data = json.load(file_music_memory)
# Join new_data with file_data inside emp_details
file_data.append(temp)
file_music_memory.seek(0)
# convert back to json.
json.dump(file_data, file_music_memory, indent=4)
elif request_type == "RANDOM":
with open(MEMORY_FIVE_SIARA, "r+", encoding=ENCODING) as file_memory:
# First we load existing data into a dict.
file_data = json.load(file_memory)
# Join new_data with file_data inside emp_details
file_data.append(temp)
file_memory.seek(0)
# convert back to json.
json.dump(file_data, file_memory, indent=4)
else:
with open(MEMORY_FIVE_SIARA, "r+", encoding=ENCODING) as file_memory:
# First we load existing data into a dict.
file_data = json.load(file_memory)
# Join new_data with file_data inside emp_details
file_data.append(temp)
file_memory.seek(0)
# convert back to json.
json.dump(file_data, file_memory, indent=4)
history = []
history.append(GPT_SETTINGS[0])
chat_gpt_config_request_size = num_tokens_from_string(GPT_SETTINGS[0], "gpt-4")
for slowo, reakcja in WORD_REACTIONS.items():
if not reakcja[3]:
content = (
"Kiedy słyszysz "
+ slowo
+ " to reagujesz lub dzieje się to "
+ reakcja[0]
)
temp = {"role": "system", "content": content}
chat_gpt_config_request_size += num_tokens_from_string(temp, "gpt-4")
history.append(temp)
final_prompt = username + ":" + prompt
logger.debug(
"Rozmiar zapytania przed dodaniem historii %s", chat_gpt_config_request_size
)
if request_type == "MUSIC":
algorithm = "gpt-4o"
table = MESSAGE_TABLE_MUZYKA
token_amount = 10700
elif request_type == "RANDOM":
algorithm = "gpt-4o"
table = MESSAGE_TABLE
token_amount = 10700
else:
table = MESSAGE_TABLE
algorithm = "gpt-4o"
token_amount = 10700
prompt_gpt_request_size = num_tokens_from_string(
{"role": "user", "content": final_prompt}, "gpt-4"
)
temptable = []
for i in reversed(table):
temp_token = num_tokens_from_string(i, "gpt-4")
logger.debug(
"Rozmiar zapytania %s prompt %s temp %s",
chat_gpt_config_request_size,
prompt_gpt_request_size,
temp_token,
)
if (
chat_gpt_config_request_size
< token_amount + prompt_gpt_request_size + temp_token
):
temptable.insert(1, i)
chat_gpt_config_request_size += temp_token
history.extend(temptable)
temp = {"role": "user", "content": final_prompt}
history.append(temp)
logger.info("Rozmiar zapytania po wyslaniu %s", chat_gpt_config_request_size)
try:
response = await OPENAICLIENT.chat.completions.create(
model=algorithm, messages=history
)
except openai.APITimeoutError as e:
# Handle timeout error, e.g. retry or log
result = f"*Kondziu patrzy na terminal, czeka, czeka, czeka,.... Jeszcze chwile czeka Przypierdala w niego pięścią....* Nie mogę się połączyć z Openai spróbuj od nowa. *Na ekranie pojawia się*: {e}"
except openai.APIConnectionError as e:
result = f"*Kondziu patrzy na terminal, chwile się zastanawia. Przypierdala w niego pięścią....* Nie mogę się połączyć z Openai. *Na ekranie pojawia się*: {e}"
except openai.BadRequestError as e:
# Handle invalid request error, e.g. validate parameters or log
resp, _ = await handle_response(
f"Wytlumacz jakie sa zasady dotyczące treści które możesz generować używając Dalle. Wytłumacz błąd {e} prostym językiem. Przeproś za nadmierną cenzurę. Wytłumacz co mogło być nie tak w prompcie 'prompt'",
True,
True,
MESSAGE_TABLE,
username,
"RANDOM",
)
result = f"Sorki, cenzura: {resp}. Jak chcesz to są kanały na nudle #sexy-foteczky i #kanal-do-fapania *Na ekranie pojawia się: {e}"
except openai.APIResponseValidationError as e:
# Handle invalid request error, e.g. validate parameters or log
resp, _ = await handle_response(
f"Wytlumacz jakie sa zasady dotyczące treści które możesz generować używając Dalle. Wytłumacz błąd {e} prostym językiem. Przeproś za nadmierną cenzurę. Wytłumacz co mogło być nie tak w prompcie 'prompt'",
True,
True,
MESSAGE_TABLE,
username,
"RANDOM",
)
result = f"Sorki, cenzura: {resp}. Jak chcesz to są kanały na nudle #sexy-foteczky i #kanal-do-fapania *Na ekranie pojawia się: {e}"
except openai.AuthenticationError as e:
# Handle authentication error, e.g. check credentials or log
result = f"*Kondziu patrzy na terminal, chwile się zastanawia. Przypierdala w niego pięścią....* Wołaj szefa - coś się z hasłem zjebało. *Na terminalu pojawia się:* {e}"
except openai.PermissionDeniedError as e:
# Handle permission error, e.g. check scope or log
result = f"*Kondziu patrzy na terminal, chwile się zastanawia. Przypierdala w niego pięścią....* Wołaj szefa - coś się z uprawnieniami zjebało. *Na terminalu pojawia się:* {e}"
except openai.RateLimitError as e:
result = f"*Kondziu patrzy na terminal* Wołaj szefa. Zapłacić rachunki za AI trzeba. Jak chcesz to się na #zebranie dorzuć. {e}"
except openai.UnprocessableEntityError as e:
result = f"*Kondziu patrzy na terminal. Potem na to co każesz mu wysłać....* Ja wiem że jesteśmy w barze BDSM - ale nie da się włożyć TEGO w TO. *Za jego plecami na terminalu pojawia się:* {e}"
except openai.APIError as e:
# Handle API error, e.g. retry or log
result = f"*Kondziu nurkuje za bar, terminal wybucha. Przed tobą ląduje pergamin zapisany pięknym gotykiem a na nim*: {e}"
logger.info("Historia wysłana:")
logger.info(history)
await asyncio.sleep(15)
result = ""
logger.debug("Odpowiedzi")
logger.info(response)
logger.debug(response.choices)
for choice in response.choices:
result += choice.message.content
logger.info("Sformatowane odpowiedzi")
logger.info(result)
temp = {"role": "assistant", "content": result}
history.append(temp)
if request_type == "MUSIC":
with open(MEMORY_FIVE_MUZYKA, "r+", encoding=ENCODING) as file_music_memory:
# First we load existing data into a dict.
file_data = json.load(file_music_memory)
# Join new_data with file_data inside emp_details
file_data.append(temp)
file_music_memory.seek(0)
# convert back to json.
json.dump(file_data, file_music_memory, indent=4)
elif request_type == "RANDOM":
with open(MEMORY_FIVE_SIARA, "r+", encoding=ENCODING) as file_memory:
# First we load existing data into a dict.
file_data = json.load(file_memory)
# Join new_data with file_data inside emp_details
file_data.append(temp)
file_memory.seek(0)
# convert back to json.
json.dump(file_data, file_memory, indent=4)
else:
with open(MEMORY_FIVE_SIARA, "r+", encoding=ENCODING) as file_memory:
# First we load existing data into a dict.
file_data = json.load(file_memory)
# Join new_data with file_data inside emp_details
file_data.append(temp)
file_memory.seek(0)
# convert back to json.
json.dump(file_data, file_memory, indent=4)
return result, MESSAGE_TABLE
async def get_random_cyclic_message(client):
"""
The function `get_random_cyclic_message` returns a random cyclic message from a list of cyclic
words.
:return: a random cyclic message from the list `cyclic_words`.
"""
logger = logging.getLogger("discord")
channel_id = 1062047367337095268
channel = client.get_channel(channel_id)
# trunk-ignore(bandit/B311)
ai_check = random.randint(0, 10)
logger.info("Losowa wypowiedź")
if ai_check < 2:
logger.info("Predefiniowana")
# trunk-ignore(bandit/B311)
messnum = random.randint(0, len(CYCLIC_WORDS))
logger.debug(messnum)
logger.debug(len(CYCLIC_WORDS))
mess_key = list(CYCLIC_WORDS.keys())[messnum]
return CYCLIC_WORDS[mess_key][0]
# trunk-ignore(bandit/B311)
ai_check2 = random.randint(0, 10)
global MESSAGE_TABLE
if ai_check2 < 6:
logger.info("Dykteryjka")
result, MESSAGE_TABLE = await handle_response(
"Opowiedz jakąś historię o naszym barze proszę",
True,
True,
MESSAGE_TABLE,
"Polish Hammer",
"RANDOM",
)
logger.info(result)
else:
logger.info("Wtracenie w dyskusje")
messages = [message async for message in channel.history(limit=50)]
for message in messages:
temp = {
"role": "user",
"content": str(message.author) + ":" + str(message.content),
}
MESSAGE_TABLE.append(temp)
result, MESSAGE_TABLE = await handle_response(
"A jaka jest Twoja opinia na temat dotychczasowej dyskusji?",
True,
True,
MESSAGE_TABLE,
"Polish Hammer",
"RANDOM",
)
logger.info(result)
return result
+47 -28
View File
@@ -1,11 +1,11 @@
import logging
import threading
import json import json
import time import logging
import re import re
import threading
import time
from queue import Empty, Queue
from urllib import request as urequest from urllib import request as urequest
from queue import Queue, Empty
from flask import Flask, jsonify, request from flask import Flask, jsonify, request
from waitress import serve from waitress import serve
@@ -14,28 +14,30 @@ PORT_ADDRESS = 5000
ICECAST_ADDRESS = "http://192.168.1.15:8000" ICECAST_ADDRESS = "http://192.168.1.15:8000"
OUT_COMM_Q = Queue() OUT_COMM_Q = Queue()
IN_COMM_Q = Queue() IN_COMM_Q = Queue()
SRCHTITLE = re.compile(br'StreamTitle=\\*(?P<title>[^;]*);').search SRCHTITLE = re.compile(rb"StreamTitle=\\*(?P<title>[^;]*);").search
awaiting_q = [] awaiting_q = []
incoming_q = Queue() incoming_q = Queue()
app = Flask(__name__) app = Flask(__name__)
PREPPED_TRACKS = { PREPPED_TRACKS = {
"requests" : "", "requests": "",
"hit" : "", "hit": "",
"all": "", "all": "",
"priority":"", "priority": "",
"jingles":"", "jingles": "",
"now_playing":"", "now_playing": "",
"next": "", "next": "",
"meta" : "" "meta": "",
} }
logger = logging.getLogger("discord") logger = logging.getLogger("discord")
class QueryControl: class QueryControl:
""" """
This class `QueryControl` is used to manage queries with information about the author, UUID, This class `QueryControl` is used to manage queries with information about the author, UUID,
content, logger, context, and replies. content, logger, context, and replies.
""" """
def __init__(self, query_author, query_uuid, query_content, ctx) -> None: def __init__(self, query_author, query_uuid, query_content, ctx) -> None:
self.author = query_author self.author = query_author
self.uuid = query_uuid self.uuid = query_uuid
@@ -48,6 +50,7 @@ class QueryControl:
) )
self.replies = [] self.replies = []
@app.route("/prepped_tracks", methods=["POST"]) @app.route("/prepped_tracks", methods=["POST"])
def log_radio_tracks(): def log_radio_tracks():
app.logger = logging.getLogger("discord") app.logger = logging.getLogger("discord")
@@ -59,7 +62,14 @@ def log_radio_tracks():
metadata = id3(ICECAST_ADDRESS) metadata = id3(ICECAST_ADDRESS)
PREPPED_TRACKS["now_playing"] = PREPPED_TRACKS["next"] PREPPED_TRACKS["now_playing"] = PREPPED_TRACKS["next"]
if metadata: if metadata:
PREPPED_TRACKS["meta"] = metadata["name"] + " - " + metadata["title"] + "(" + metadata["genre"] + ")" PREPPED_TRACKS["meta"] = (
metadata["name"]
+ " - "
+ metadata["title"]
+ "("
+ metadata["genre"]
+ ")"
)
else: else:
PREPPED_TRACKS["meta"] = "Nie znaju" PREPPED_TRACKS["meta"] = "Nie znaju"
PREPPED_TRACKS[record[0]] = record[1] PREPPED_TRACKS[record[0]] = record[1]
@@ -83,6 +93,7 @@ def answer_external_command():
incoming_q.put(record) incoming_q.put(record)
return jsonify("SUCCESS") return jsonify("SUCCESS")
@app.route("/conjurer", methods=["GET"]) @app.route("/conjurer", methods=["GET"])
def check_alive(): def check_alive():
""" """
@@ -94,6 +105,7 @@ def check_alive():
""" """
return jsonify("ALIVE") return jsonify("ALIVE")
def flask_debug(): def flask_debug():
""" """
The `flask_debug` function starts a Flask application in debug mode without using the reloader. The `flask_debug` function starts a Flask application in debug mode without using the reloader.
@@ -116,6 +128,7 @@ def waitress_run():
logger.info("Attempt waitress") logger.info("Attempt waitress")
serve(app, host=HOST_ADDRESS, port=PORT_ADDRESS) serve(app, host=HOST_ADDRESS, port=PORT_ADDRESS)
def scan_queue(): def scan_queue():
""" """
The function `scan_queue` reads data from a queue, logs it, and appends it to another queue. The function `scan_queue` reads data from a queue, logs it, and appends it to another queue.
@@ -131,6 +144,7 @@ def scan_queue():
logger.info(data) logger.info(data)
awaiting_q.append(data) awaiting_q.append(data)
def scan_incoming(): def scan_incoming():
""" """
The `scan_incoming` function continuously checks for incoming data, processes it, and logs when data The `scan_incoming` function continuously checks for incoming data, processes it, and logs when data
@@ -162,26 +176,31 @@ def scan_incoming():
except Empty: except Empty:
time.sleep(1) time.sleep(1)
def get_stream_title(tag:bytes) -> str:
title = '' def get_stream_title(tag: bytes) -> str:
title = ""
if m := SRCHTITLE(tag): if m := SRCHTITLE(tag):
#decode, strip, unescape and remove surrounding quotes (may not even be the same type of quote) # decode, strip, unescape and remove surrounding quotes (may not even be the same type of quote)
title = m.group('title').decode('utf-8').strip().replace('\\', '')[1:-1] title = m.group("title").decode("utf-8").strip().replace("\\", "")[1:-1]
return title return title
def id3(url:str) -> dict:
request = urequest.Request(url, headers={'Icy-MetaData': 1}) def id3(url: str) -> dict:
request = urequest.Request(url, headers={"Icy-MetaData": 1})
with urequest.urlopen(request) as resp: with urequest.urlopen(request) as resp:
metaint = int(resp.headers.get('icy-metaint', '-1')) metaint = int(resp.headers.get("icy-metaint", "-1"))
if metaint<0: if metaint < 0:
return False return False
resp.read(metaint) #this isn't seekable so, arbitrarily read to the point we want resp.read(
metaint
) # this isn't seekable so, arbitrarily read to the point we want
tagdata = dict( tagdata = dict(
site_url = resp.headers.get('icy-url' ) , site_url=resp.headers.get("icy-url"),
name = resp.headers.get('icy-name' ).title(), name=resp.headers.get("icy-name").title(),
genre = resp.headers.get('icy-genre').title(), genre=resp.headers.get("icy-genre").title(),
title = get_stream_title(resp.read(255)) ) title=get_stream_title(resp.read(255)),
)
return tagdata return tagdata
@@ -193,20 +212,20 @@ def comm_subroutine():
object that is used for logging messages at various levels (e.g., debug, info, warning, error). In object that is used for logging messages at various levels (e.g., debug, info, warning, error). In
the provided code snippet, the logger is used to log messages at the "info" level the provided code snippet, the logger is used to log messages at the "info" level
""" """
#logger.setLevel(logging.DEBUG) # logger.setLevel(logging.DEBUG)
logger = logging.getLogger("discord") logger = logging.getLogger("discord")
logger.info("Started comms") logger.info("Started comms")
threads = [] threads = []
#threads.append(threading.Thread(target=flask_debug)) # threads.append(threading.Thread(target=flask_debug))
threads.append(threading.Thread(target=waitress_run)) threads.append(threading.Thread(target=waitress_run))
threads.append(threading.Thread(target=scan_queue)) threads.append(threading.Thread(target=scan_queue))
threads.append(threading.Thread(target=scan_incoming)) threads.append(threading.Thread(target=scan_incoming))
for worker in threads: for worker in threads:
worker.start() worker.start()
for worker in threads: for worker in threads:
worker.join() worker.join()
if __name__ == "__main__": if __name__ == "__main__":
comm_subroutine() comm_subroutine()
+39 -3
View File
@@ -1,8 +1,13 @@
from datetime import datetime
import json import json
import netrc
from datetime import datetime
from platform import uname
from sys import platform from sys import platform
from typing import List, Optional, TypedDict from typing import List, Optional, TypedDict
from platform import uname
import openai
import spotipy
from spotipy.oauth2 import SpotifyClientCredentials
Music_Config = TypedDict( Music_Config = TypedDict(
"Music_Config", "Music_Config",
@@ -14,7 +19,6 @@ Music_Config = TypedDict(
) )
# *=========================================== Predefines # *=========================================== Predefines
MASTER_TIMEOUT = datetime.now() MASTER_TIMEOUT = datetime.now()
INITIAL_TIME_WAIT = 500 INITIAL_TIME_WAIT = 500
@@ -99,3 +103,35 @@ elif platform == "win32":
SEPARATOR_FILE_PATH = "\\" SEPARATOR_FILE_PATH = "\\"
with open(SETTINGS_FILE, "r", encoding=ENCODING) as f_settings_file: with open(SETTINGS_FILE, "r", encoding=ENCODING) as f_settings_file:
DATA = json.load(f_settings_file) DATA = json.load(f_settings_file)
REMOTE_HOST_NAME = "openai"
netrc_mod = netrc.netrc(NETRC_FILE)
authTokens = netrc_mod.authenticators(REMOTE_HOST_NAME)
openai.api_key = authTokens[2]
OPENAICLIENT = openai.AsyncOpenAI(api_key=openai.api_key)
REMOTE_HOST_NAME = "discord"
authTokens = netrc_mod.authenticators(REMOTE_HOST_NAME)
TOKEN = authTokens[2]
REMOTE_HOST_NAME = "spotipy"
authTokens = netrc_mod.authenticators(REMOTE_HOST_NAME)
SPOTIFY_CTRL = spotipy.Spotify(
client_credentials_manager=SpotifyClientCredentials(
client_id=authTokens[0],
client_secret=authTokens[2],
)
)
WORD_REACTIONS = DATA["word_reactions"]
CYCLIC_WORDS = DATA["cyclic_words"]
for key in WORD_REACTIONS:
WORD_REACTIONS[key][2] = datetime.now()
with open(MEMORY_FIVE_SIARA, "r+", encoding=ENCODING) as temp_memory_file:
# First we load existing data into a dict.
MESSAGE_TABLE = json.load(temp_memory_file)
with open(SYSTEM_GPT_SETTINGS, "r+", encoding=ENCODING) as temp_settings_file:
# First we load existing data into a dict.
GPT_SETTINGS = json.load(temp_settings_file)
with open(MEMORY_FIVE_MUZYKA, "r+", encoding=ENCODING) as temp_music_memory_file:
# First we load existing data into a dict.
MESSAGE_TABLE_MUZYKA = json.load(temp_music_memory_file)
+1 -1
View File
@@ -1,5 +1,5 @@
#!/bin/bash #!/bin/bash
cd ./conjurer cd ./conjurer || exit
git pull git pull
cd .. cd ..
cp ./conjurer/conjurer_musician/conjurer_musician.py ./Conjurer cp ./conjurer/conjurer_musician/conjurer_musician.py ./Conjurer
+6 -5
View File
@@ -1,11 +1,12 @@
#!/bin/bash #!/bin/bash
sudo apt-get install python3-dev sudo apt-get install python3-dev
cd /home/pi cd /home/pi || exit
mdkir Conjurer mdkir Conjurer
cd Conjurer cd Conjurer ||exit
python3 -m venv /home/pi/Conjurer/env python3 -m venv /home/pi/Conjurer/.venv
cp /home/pi/conjurer/requirements_bot.txt /home/pi/Conjurer/ cp /home/pi/conjurer/requirements_bot.txt /home/pi/Conjurer/
source ./env/bin/activate # trunk-ignore(shellcheck/SC1091)
source /home/pi/Conjurer/.venv/bin/activate
./env/bin/python3 -m pip install --upgrade pip ./env/bin/python3 -m pip install --upgrade pip
./env/bin/python3 -m pip install -r requirements_bot.txt ./env/bin/python3 -m pip install -r requirements_bot.txt
sed -i -e 's/os.rename/shutil.copy/g' ./env/lib/python3.11/site-packages/spotify_dl/youtube.py sed -i -e 's/os.rename/shutil.copy/g' ./env/lib/python3.11/site-packages/spotify_dl/youtube.py
@@ -14,7 +15,7 @@ sed -i '1i\import logging' ./env/lib/python3.11/site-packages/spotify_dl/spotify
sed -i '21i\ logger = logging.getLogger("discord")' ./env/lib/python3.11/site-packages/spotify_dl/spotify.py sed -i '21i\ logger = logging.getLogger("discord")' ./env/lib/python3.11/site-packages/spotify_dl/spotify.py
sed -i '22i\ logger.info("Playlist")' ./env/lib/python3.11/site-packages/spotify_dl/spotify.py sed -i '22i\ logger.info("Playlist")' ./env/lib/python3.11/site-packages/spotify_dl/spotify.py
#add sed changing signal registration to catch exception in spotify dl init
deactivate deactivate
sudo cp ./conjurer.service /etc/systemd/system/ sudo cp ./conjurer.service /etc/systemd/system/
sudo systemctl daemon-reload sudo systemctl daemon-reload
+285
View File
@@ -0,0 +1,285 @@
import asyncio
import io
import logging
import os
import random
import uuid
from queue import Empty
import discord
import pdf2image
import PyPDF2
import requests
from discord.ext import commands, tasks
from ai_functions import handle_response
from communication_subroutine import IN_COMM_Q, OUT_COMM_Q, QueryControl
from constants import DIR_PATH_SADOX, LIBRARIAN_SERVICE_ADDRESS, SEND_QUERY
class DataModule(commands.Cog):
def __init__(self, bot, logger_name):
self.bot = bot
self.logger = logging.getLogger(logger_name)
@commands.hybrid_command(
nsfw=True,
name="get_image_sadox",
description="Wyświetla losową stronę z losowego komiksu FanSadox. Bardzo NSFW.",
guild=discord.Object(id=664789470779932693),
)
async def get_image_sadox(self, ctx):
"""
Take in a context parameter and retrieve an image related from fansadox collection.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. In this case, it is likely being used
to determine
"""
self.logger.info("Get sadox")
channel = ctx.message.channel
async with channel.typing():
# select random file
res = []
# Iterate directory
for path in os.listdir(DIR_PATH_SADOX):
# check if current path is a file
if os.path.isfile(os.path.join(DIR_PATH_SADOX, path)):
res.append(path)
# trunk-ignore(bandit/B311)
filename = res[random.randrange(0, len(res) - 1)]
# select random page
file = open(DIR_PATH_SADOX + filename, "rb")
readpdf = PyPDF2.PdfReader(file)
totalpages = len(readpdf.pages)
# trunk-ignore(bandit/B311)
page = random.randrange(1, totalpages)
# convert page to image
image = pdf2image.convert_from_path(
DIR_PATH_SADOX + filename, first_page=page, last_page=page
)
byte_io_stream = io.BytesIO()
image[0].save(byte_io_stream, "JPEG")
byte_io_stream.seek(0)
byte_io_stream.name = "image.jpg"
file = discord.File(byte_io_stream)
await ctx.send(file=file)
self.logger.info("Get sadox completed")
# TODO: LIBRARIAN
@tasks.loop(seconds=3)
async def check_data_q(self):
"""
This function checks the data queue for any new entries and processes them accordingly.
"""
try:
fresh_data = IN_COMM_Q.get(block=False)
entries = []
if fresh_data.stop:
searcher = fresh_data.author
query = fresh_data.content
l_p = 1
for doi in fresh_data.entries:
self.logger.info(doi)
desc = fresh_data.entries[doi]
title = desc["Title"][0]
entries.append(
f"{l_p}. {title} pod linkiem https://www.sci-hub.se/{doi} i jest to {desc['type']}\n"
)
l_p += 1
message = "*Z podłogi wysuwa się winda na książki*"
if fresh_data.ctx is not None:
ctx = fresh_data.ctx
message += f" Dzielny poszukiwaczu @{searcher} w odpowiedzi na twoje zapytanie {query} nr {fresh_data.uuid}"
else:
ctx = self.bot.get_channel(1062047571557744721)
message += f" Mam wynik dla zapytania {fresh_data.uuid} ale że Hammer coś grzebał nie pamiętam kto to chciał i co chciał"
message += "nasza biblioteka służy Ci odpowiedzią. Przy dźwięku fanfar winda się otwiera a w środku "
if len(entries) < 1:
message += "niestety nie ma nic"
await ctx.send(message)
elif len(entries) >= 1 and len(entries) < 5:
message += " znajduje się coś:\n"
for item in entries:
message += item
await ctx.send(message)
else:
message += " znajduje się cholernie dużo:\n"
for item in entries:
message += item
if len(message) > 1500:
await ctx.send(message)
message = ""
# Kept for sentimental reasons
# await ctx.send(f"O. A tak będzie wyglądało coś ciekawego w przyszłości: {data}")
except Empty:
pass
# TODO: LIBRARIAN
@commands.hybrid_command(
name="wyszukaj_linki_do_dokumentow",
description="Szuka linkow doi w bazie crossref i podaje linki do scihuba",
guild=discord.Object(id=664789470779932693),
)
async def wyszukaj_linki_do_dokumentow(self, ctx):
"""
The function `wyszukaj_linki_do_dokumentow` searches for links to documents in a crossref database and provides links to scihub.
:param ctx: The `ctx` parameter is typically used in Discord.py, a Python library for creating Discord bots.
It represents the context of the command being executed, including information about the message, the server,
and the user who invoked the command.
"""
query = ctx.message.content
query_uuid = uuid.uuid4()
# TODO: TESTING ONLY!!
# query_uuid = uuid.UUID('{12345678-1234-5678-1234-567812345678}')
ctx.message.content = ctx.message.content.replace(
"$wyszukaj_linki_do_dokumentow", ""
)
json_query = {
"UUID": str(query_uuid),
"query": str(query),
"page": 1,
"deep_search": False,
}
coroutine = asyncio.to_thread(
requests.post,
f"{LIBRARIAN_SERVICE_ADDRESS}{SEND_QUERY}",
json=json_query,
timeout=360,
)
await ctx.send(
"*Conjurer powoli notuje podane przez Ciebie. Podchodzi do sprytnie ukrytej przy barze rury od poczty pneumatycznej i"
+ " wrzuca twój liścik do środka* To teraz trza poczekać kilka godzin. Biblioteka to 3/4 stacji."
+ " A przecież pół stacji to browar, motelik dla zabaw cielesnych i ten Bar. Więc 12/8 stacji teraz będzie ciężko pracować"
)
query_response = await coroutine
if not query_response.status_code == 200:
await ctx.send(
"*Z rury wydobywa się dym. Conjurer łapie pierwszą ciecz pod ręką i pryska na rurę. Następuje drobna eksplozja i wszystko zaczyna się palić."
+ " Conjurer jest skonfundowany..* Wołaj szefa - mam nieodparte wrażenie że się coś wyjebało"
)
return
query, query_uuid, queue_size = (
query_response.json()["data"][0],
query_response.json()["data"][1],
query_response.json()["data"][2],
)
if ctx.message.author.nick:
username = ctx.message.author.nick
else:
username = ctx.message.author.name
query_object = QueryControl(username, query_uuid, query, ctx)
OUT_COMM_Q.put(query_object)
await ctx.send(
f"No dobra poszło. Zapamiętaj proszę {query_uuid} - to identyfikator twojego zapytania. Jesteś {queue_size} w kolejce."
+ " Zapytania obsługuje algorytm zasilany czterema chomikami zapierdalającymi w kołowrotku - więc wyniki najwcześniej za kilka godzi - ale mogą być też dni."
)
# TODO: LIBRARIAN
@commands.hybrid_command(
name="glebokie_gardlo",
description="Przygotowuje drinka o nazwie głębokie gardło",
guild=discord.Object(id=664789470779932693),
)
async def wyszukaj_linki_do_dokumentow_deep(ctx):
"""
The function `wyszukaj_linki_do_dokumentow_deep` performs a deep search for links to documents in
a crossref database and provides links to scihub.
:param ctx: The `ctx` parameter is typically used in Discord.py, a Python library for creating Discord bots.
It represents the context of the command being executed, including information about the message, the server,
and the user who invoked the command.
"""
# TODO: Implement deep search logic here
query = ctx.message.content.replace("$glebokie_gardlo", "")
allowed = False
for role in ctx.message.author.roles:
if role.name == "Bartender":
allowed = True
if role.name == "Scribe":
allowed = True
if role.name == "Thane":
allowed = True
if not allowed:
if ctx.message.author.nick:
username = ctx.message.author.nick
else:
username = ctx.message.author.name
vykidailo = False
bartender = False
prompt = "Przygotuj mi drinka o nazwie Głębokie Gardło, inspirowanego tym sławnym filmem oraz skandalem Watergate"
for role in ctx.message.author.roles:
if role.name == "Vykidailo":
vykidailo = True
if role.name == "Bartender":
bartender = True
global MESSAGE_TABLE # pylint: disable=global-statement
result, MESSAGE_TABLE = await handle_response(
prompt, vykidailo, bartender, MESSAGE_TABLE, username, "CONVERSATION"
)
if len(result) < 1500:
await ctx.send(result)
else:
while len(result) > 1500:
await ctx.send(result[:1500])
result = result[1500:]
return
query_uuid = uuid.uuid4()
# TODO: TESTING ONLY!!
# query_uuid = uuid.UUID('{12345678-1234-5678-1234-567812345678}')
json_query = {
"UUID": str(query_uuid),
"query": str(query),
"page": 1,
"deep_search": True,
}
coroutine = asyncio.to_thread(
requests.post,
f"{LIBRARIAN_SERVICE_ADDRESS}{SEND_QUERY}",
json=json_query,
timeout=360,
)
await ctx.send(
"*Conjurer mruga okiem i zamiast drinka wyjmuje dysk usb z terminala. Podchodzi do sprytnie ukrytej przy barze rury od poczty pneumatycznej i"
+ " wrzuca ten dysk do środk* To teraz trza poczekać kilka godzin. TO będzie głębokie wyszukanie"
+ " Rozgląda się dookoła i stawia przed tobą mętnego drinka o zapachu mięty, gwiezdnego pyłu i oleju silnikowego"
)
query_response = await coroutine
if not query_response.status_code == 200:
await ctx.send(
"*Z rury wydobywa się dym. Conjurer łapie pierwszą ciecz pod ręką i pryska na rurę. Następuje drobna eksplozja i wszystko zaczyna się palić."
+ " Conjurer jest skonfundowany..* Wołaj szefa - mam nieodparte wrażenie że się coś wyjebało"
)
return
query, query_uuid, queue_size = (
query_response.json()["data"][0],
query_response.json()["data"][1],
query_response.json()["data"][2],
)
if ctx.message.author.nick:
username = ctx.message.author.nick
else:
username = ctx.message.author.name
query_object = QueryControl(username, query_uuid, query, ctx)
OUT_COMM_Q.put(query_object)
await ctx.send(
f"Wypij wypi {query_uuid} - to identyfikator twojego zapytania. Jesteś {queue_size} w kolejce niestety kolejka obowiazuje zawsze."
+ " Zapytania obsługuje algorytm zasilany czterema chomikami zapierdalającymi w kołowrotku - więc wyniki najwcześniej za kilka godzin - ale mogą być też dni. Głębokie zabawy trwają dłużej. *Znowu mruga*"
)
async def setup(bot):
logger = logging.getLogger("discord")
dm = DataModule(bot, "discord")
dm.check_data_q.start()
await bot.add_cog(dm)
logger.info("Loading data sharing commands module done")
+570 -12
View File
@@ -1,11 +1,20 @@
import music_functions import asyncio
from constants import MUZYKA
import logging import logging
import discord import random
from discord.ext import commands
from communication_subroutine import PREPPED_TRACKS
from sys import platform
import re import re
from datetime import datetime
from sys import platform
import discord
import eyed3
from discord.ext import commands, tasks
import music_functions
from ai_functions import handle_response
from communication_subroutine import PREPPED_TRACKS
from constants import MESSAGE_TABLE_MUZYKA, MUZYKA, SEPARATOR_FILE_PATH
from other_functions import get_stats
class MusicModule(commands.Cog): class MusicModule(commands.Cog):
def __init__(self, bot, logger_name): def __init__(self, bot, logger_name):
@@ -37,10 +46,14 @@ class MusicModule(commands.Cog):
content = ctx.message.content.split() content = ctx.message.content.split()
for item_yt in content: for item_yt in content:
if re.match("http.*", item_yt): if re.match("http.*", item_yt):
sciezka, files = await music_functions.get_file(ctx, "Pornol", item_yt) sciezka, files = await music_functions.get_file(
ctx, "Pornol", item_yt
)
if files: if files:
self.logger.info("Pornol udany") self.logger.info("Pornol udany")
await ctx.send(f"Jest w tajnym archiwum pod adresem{sciezka})") await ctx.send(
f"Jest w tajnym archiwum pod adresem{sciezka})"
)
else: else:
await ctx.reply("Jak ładnie szefa poprosisz.") await ctx.reply("Jak ładnie szefa poprosisz.")
@@ -49,7 +62,7 @@ class MusicModule(commands.Cog):
description="Wyswietl kawalki ktore sa na pocztku list radia", description="Wyswietl kawalki ktore sa na pocztku list radia",
guild=discord.Object(id=664789470779932693), guild=discord.Object(id=664789470779932693),
) )
async def co_na_plejliscie_wariacie(self,ctx): async def co_na_plejliscie_wariacie(self, ctx):
""" """
Download a music number from youtube. Download a music number from youtube.
@@ -62,14 +75,33 @@ class MusicModule(commands.Cog):
async with ctx.typing(): async with ctx.typing():
self.logger.info("plejlista") self.logger.info("plejlista")
self.logger.info(PREPPED_TRACKS) self.logger.info(PREPPED_TRACKS)
await ctx.send(f"Didżej Hammer i jego sztuczna inteligencja (||he he||) prezentują: \n- obecnie grany jest {(PREPPED_TRACKS['now_playing']).rstrip()} (wg metadanych: {PREPPED_TRACKS['meta']}) \n- następny będzie{(PREPPED_TRACKS['next']).rstrip()} \n- na liście priorytetowej {(PREPPED_TRACKS['priority']).rstrip()} \n- na liście hitów obecnie czeka kawałek {(PREPPED_TRACKS['hit']).rstrip()} \n- na liście wszystkich kawałków {(PREPPED_TRACKS['all']).rstrip()} \n- najświeższym zamówieniem od słuchaczy jest {(PREPPED_TRACKS['requests']).rstrip()} \nZ kolei jingiel to: {(PREPPED_TRACKS['jingles']).rstrip()}") await ctx.send(
f"Didżej Hammer i jego sztuczna inteligencja (||he he||) prezentują: \n- obecnie grany jest {(PREPPED_TRACKS['now_playing']).rstrip()} (wg metadanych: {PREPPED_TRACKS['meta']}) \n- następny będzie{(PREPPED_TRACKS['next']).rstrip()} \n- na liście priorytetowej {(PREPPED_TRACKS['priority']).rstrip()} \n- na liście hitów obecnie czeka kawałek {(PREPPED_TRACKS['hit']).rstrip()} \n- na liście wszystkich kawałków {(PREPPED_TRACKS['all']).rstrip()} \n- najświeższym zamówieniem od słuchaczy jest {(PREPPED_TRACKS['requests']).rstrip()} \nZ kolei jingiel to: {(PREPPED_TRACKS['jingles']).rstrip()}"
)
@tasks.loop(seconds=1)
async def check_music(self):
"""
This Python function continuously checks for music playback in a voice client and plays music if
conditions are met.
"""
if self.bot.voice_clients:
voice_client = self.bot.voice_clients[0]
if (
voice_client
and voice_client.is_connected()
and not voice_client.is_playing()
and not voice_client.is_paused()
):
await self.play(MUZYKA["ctx"], MUZYKA["requester"])
await asyncio.sleep(2)
@commands.hybrid_command( @commands.hybrid_command(
name="dej_co_z_jutuba", name="dej_co_z_jutuba",
description="Podaj link do youtube - sciagnie i doda muzyke", description="Podaj link do youtube - sciagnie i doda muzyke",
guild=discord.Object(id=664789470779932693), guild=discord.Object(id=664789470779932693),
) )
async def dej_co_z_jutuba(self,ctx): async def dej_co_z_jutuba(self, ctx):
""" """
Download a music number from youtube. Download a music number from youtube.
@@ -116,7 +148,9 @@ class MusicModule(commands.Cog):
content = ctx.message.content.split() content = ctx.message.content.split()
for item in content: for item in content:
if re.match("http.*", item): if re.match("http.*", item):
dir_path, files = await music_functions.get_file(ctx, "Spotify", item) dir_path, files = await music_functions.get_file(
ctx, "Spotify", item
)
if platform == "win32": if platform == "win32":
separator = "\\" separator = "\\"
else: else:
@@ -147,6 +181,530 @@ class MusicModule(commands.Cog):
) )
self.logger.info("Spotifaj udany") self.logger.info("Spotifaj udany")
# MUSIC BOT PART
@commands.hybrid_command(
name="cisza",
description="Wyłącza muzykę i czyści plejliste.",
guild=discord.Object(id=664789470779932693),
)
async def cisza(self, ctx):
"""
Stop playback of the music and clear the queue.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. This parameter is required in all
Discord.py commands
"""
self.logger.info("Stop")
global MUZYKA # pylint: disable=global-variable-not-assigned
MUZYKA["ctx"] = None
voice_client = self.bot.voice_clients[0]
self.check_music.stop()
if voice_client.is_connected():
await self.disconnect(ctx=ctx)
while MUZYKA["queue"]:
MUZYKA["queue"].pop()
MUZYKA["requester"].pop()
self.logger.info("Stop completed")
@commands.hybrid_command(
name="dalej",
description="Przerzuca na następny kawałek",
guild=discord.Object(id=664789470779932693),
)
async def dalej(self, ctx):
"""
Play next track in queue.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which a command is being executed, including information such as the
message, the channel, the server, and the user who invoked the command. The context object is used
to access and manipulate this
"""
if ctx:
self.logger.info("Ctx defined for dalej")
self.logger.info("Next")
voice_client = self.bot.voice_clients[0]
if voice_client.is_connected():
voice_client.stop()
self.logger.info("Next completed")
# TODO: MUSIC
@commands.hybrid_command(
name="daj_mi_chwile",
description="Pauzuje",
guild=discord.Object(id=664789470779932693),
)
async def daj_mi_chwile(self, ctx):
"""
Pause music playback.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. This parameter is required in most
Discord.py commands and is
"""
if ctx:
self.logger.info("Ctx defined for pause")
self.logger.info("Pause")
voice_client = self.bot.voice_clients[0]
if voice_client.is_connected():
voice_client.pause()
self.logger.info("Pause completed")
# TODO: MUSIC
@commands.hybrid_command(
name="graj_dalej",
description="Odpauzowuje",
guild=discord.Object(id=664789470779932693),
)
async def graj_dalej(self, ctx):
"""
Unpause music and continue playback.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. This parameter is required in all
Discord.py commands
"""
if ctx:
self.logger.info("Ctx defined for graj_dalej")
self.logger.info("Unpause")
voice_client = self.bot.voice_clients[0]
if voice_client.is_paused():
voice_client.resume()
self.logger.info("Unpause completed")
# TODO: MUSIC
@commands.hybrid_command(
name="zagraj_mi_kawalek",
description="Wyszukuje w bibliotece muzycznej Hammera kawałek który ma zostać zagrany",
guild=discord.Object(id=664789470779932693),
)
async def zagraj_mi_kawalek(self, ctx):
"""
Play a song or music piece in response to a command
triggered by a user in a Discord chat context.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
contains information about the context in which the command was invoked, such as the message, the
channel, the server, and the user who invoked the command. This information can be used to perform
various actions, such
"""
async with ctx.typing():
search_time_glob = datetime.now()
self.logger.info("Zaczynam szukać timestamp %s", datetime.now())
file = await self.wyszukaj(ctx=ctx)
self.logger.info(
"Koniec szukania(timestamp %s zajęło %s",
datetime.now(),
datetime.now() - search_time_glob,
)
if file:
for plik in file:
global MUZYKA # pylint: disable=global-variable-not-assigned
MUZYKA["queue"].insert(0, plik[1])
MUZYKA["requester"].insert(0, ctx.author)
metadata = eyed3.load(plik[1])
reply = (
"Dodałem do playlisty {plik[1]} z prywatnej kolekcji Hammera."
)
if metadata.tag.title:
reply = f"Dodałem do playlisty kawalek {metadata.tag.title}"
if metadata.tag.artist:
reply += f" wykonawcy {metadata.tag.artist}"
if metadata.tag.album:
reply += f" z albumu {metadata.tag.album}"
reply += (
" z prywatnej kolekcji Hammera i na Twoją specjalną rpośbę."
)
await ctx.send(reply)
else:
await ctx.send(
"Obawiam się że nie mogę nic znaleźć u siebie. Spróbuj komendy '$dej_co_ze_spotifaja' jeśli masz link"
)
# TODO: MUSIC
@commands.hybrid_command(
name="zrob_mi_plejliste",
description="Generuje playliste - param1 - dlugosc, potem slowa wyszukiwania",
guild=discord.Object(id=664789470779932693),
)
async def zrob_mi_plejliste(self, ctx):
"""
Generate a playlist in queue. First word in this command shall be int defining length of the playlist.
Rest of the line are search terms.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. This parameter is required in all
Discord.py commands
"""
reply = "Wygenerowana plejlista:\n"
async with ctx.typing():
self.logger.info("Zaczynam szukać timestamp %s", datetime.now())
search_time_glob = datetime.now()
dlugosc_playlisty = ctx.message.content.split()[1]
file = await music_functions.wyszukaj(ctx=ctx, how_many=dlugosc_playlisty)
self.logger.info(
"Koniec szukania(timestamp %s zajęło %s",
datetime.now(),
datetime.now() - search_time_glob,
)
index = 1
if file:
for plik in file:
if plik[1]:
self.logger.info(plik)
global MUZYKA # pylint: disable=global-variable-not-assigned
MUZYKA["queue"].insert(0, plik[1])
MUZYKA["requester"].insert(0, ctx.author)
metadata = eyed3.load(plik[1])
if metadata and metadata.tag:
if metadata.tag.title:
reply += f"{index} {metadata.tag.title}"
else:
reply += (
f"{index}. {plik[1]} z prywatnej kolekcji Hammera."
)
if metadata.tag.artist:
reply += f" wykonawcy {metadata.tag.artist}"
if metadata.tag.album:
reply += f" z albumu {metadata.tag.album}"
if metadata.tag.title:
reply += " z prywatnej kolekcji Hammera i na Twoją specjalną rpośbę.\n"
else:
reply += (
f"{index}. {plik[1]} z prywatnej kolekcji Hammera.\n"
)
index += 1
if len(reply) > 1800:
await ctx.send(reply)
reply = ""
else:
await ctx.send(
"Obawiam się że nie mogę nic znaleźć u siebie. Spróbuj komendy '$dej_co_ze_spotifaja' jeśli masz link"
)
await ctx.send(reply)
self.logger.info("Plejlista zrobiona")
# TODO: MUSIC
@commands.hybrid_command(
name="zagraj_muzyke_mego_ludu",
description="Gra muzyke wyszukana na bazie tematow konwersacji na kanale NZ",
guild=discord.Object(id=664789470779932693),
)
async def zagraj_muzyke_mego_ludu(self, ctx):
"""
Play completeley random playlist based on messaging history.
:param ctx: ctx stands for "context" and is typically used in Discord.py commands to represent the
context in which the command was invoked. This includes information such as the message, the
channel, the author, and other relevant details. In this case, it is being passed as a parameter to
the `get_image
"""
stats = {}
if ctx:
self.logger.info("Zagraj muzyke mego ludu: wywolane")
stat_iter = get_stats(self.bot, ctx, MUZYKA_MOJEGO_LUDU_HISTORIA)
async for name, how_many in stat_iter:
if len(name) > 3:
stats[name] = how_many
sorted_stats = sorted(stats.items(), key=lambda x: x[1])
self.logger.info("Zagraj muzyke mego ludu:zebrano statystyki")
key_words = []
for stat in sorted_stats:
key_words.append(stat[0])
self.logger.info(sorted_stats[:MUZYKA_MOJEGO_LUDU_SLOWA_KLUCZOWE])
self.logger.info(key_words[:MUZYKA_MOJEGO_LUDU_SLOWA_KLUCZOWE])
self.logger.info(sorted_stats[-MUZYKA_MOJEGO_LUDU_SLOWA_KLUCZOWE:])
self.logger.info(key_words[-MUZYKA_MOJEGO_LUDU_SLOWA_KLUCZOWE:])
final_key_words = key_words[:MUZYKA_MOJEGO_LUDU_SLOWA_KLUCZOWE]
final_key_words.extend(key_words[-MUZYKA_MOJEGO_LUDU_SLOWA_KLUCZOWE:])
reply = "Wygenerowana plejlista:\n"
async with ctx.typing():
self.logger.info(
"Zagraj muzyke mego ludu:Zaczynam szukać timestamp %s", datetime.now()
)
search_time_glob = datetime.now()
file = await music_functions.wyszukaj(
ctx=ctx,
how_many=MUZYKA_MOJEGO_LUDU_PLAJLISTA,
slowa_kluczowe=final_key_words,
)
self.logger.info("Zagraj muzyke mego ludu:wygenerowano plejliste")
self.logger.info(file)
self.logger.info(
"Zagraj muzyke mego ludu: Koniec szukania(timestamp %s zajęło %s",
datetime.now(),
datetime.now() - search_time_glob,
)
index = 1
if file:
for plik in file:
global MUZYKA # pylint: disable=global-variable-not-assigned
MUZYKA["queue"].insert(0, plik[1])
MUZYKA["requester"].insert(0, ctx.author)
metadata = eyed3.load(plik[1])
if metadata and metadata.tag:
if metadata.tag.title:
reply += f"{index} {metadata.tag.title}"
else:
reply += f"{index}. {plik[1]} z prywatnej kolekcji Hammera."
if metadata.tag.artist:
reply += f" wykonawcy {metadata.tag.artist}"
if metadata.tag.album:
reply += f" z albumu {metadata.tag.album}"
if metadata.tag.title:
reply += " z prywatnej kolekcji Hammera i na Twoją specjalną rpośbę.\n"
else:
reply += f"{index}. {plik[1]} z prywatnej kolekcji Hammera.\n"
index += 1
if len(reply) > 1800:
await ctx.send(reply)
reply = ""
else:
await ctx.send(
"Obawiam się że nie mogę nic znaleźć u siebie. Spróbuj komendy '$dej_co_ze_spotifaja' jeśli masz link"
)
await ctx.send(reply)
self.logger.info("Plejlista zrobiona")
# TODO: MUSIC
@commands.hybrid_command(
name="parametry_muzyki_mego_ludu",
description="Konfiguruje komende zagraj muzyke mojego ludu",
guild=discord.Object(id=664789470779932693),
)
async def parametry_muzyki_mego_ludu(
self, ctx, ile_historii=1500, ile_slow_kluczowych=15, jak_dluga_plejlista=30
):
"""
The function `parametry_muzyki_mego_ludu` sets global variables for the number of history entries,
number of keywords, and length of playlist for a music application.
:param ctx: The `ctx` parameter is typically used in Discord.py, a Python library for creating
Discord bots. It represents the context of the command being executed, including information about
the message, the server, and the user who invoked the command
:param ile_historii: The parameter "ile_historii" represents the number of history items for the
music playlist, defaults to 1500 (optional)
:param ile_slow_kluczowych: The parameter "ile_slow_kluczowych" represents the number of keywords or
key phrases related to music that you want to include in your analysis or search, defaults to 30
(optional)
:param jak_dluga_plejlista: The parameter "jak_dluga_plejlista" determines the length of the
playlist. It specifies how many songs should be included in the playlist, defaults to 30 (optional)
"""
if ctx:
async with ctx.typing():
# if ':' in ile_historii:
# _, _, ile_historii = ile_historii.partition(':')
# if ':' in ile_slow_kluczowych:
# _, _, ile_slow_kluczowych = ile_slow_kluczowych.partition(':')
# if ':' in jak_dluga_plejlista:
# _, _, jak_dluga_plejlista = jak_dluga_plejlista.partition(':')
try:
global MUZYKA_MOJEGO_LUDU_HISTORIA # pylint: disable=global-statement
global MUZYKA_MOJEGO_LUDU_SLOWA_KLUCZOWE # pylint: disable=global-statement
global MUZYKA_MOJEGO_LUDU_PLAJLISTA # pylint: disable=global-statement
self.logger.info(
"Długość historii wyszukiwania: %s\n Ilość słów kluczowych: %s\n Długość plejlisty do wygenerowanie: %s",
MUZYKA_MOJEGO_LUDU_HISTORIA,
MUZYKA_MOJEGO_LUDU_SLOWA_KLUCZOWE,
MUZYKA_MOJEGO_LUDU_PLAJLISTA,
)
ctx.send(
f"Dotychczasowe wartośći:\n Długość historii wyszukiwania: {MUZYKA_MOJEGO_LUDU_HISTORIA}\n Ilość słów kluczowych: {MUZYKA_MOJEGO_LUDU_SLOWA_KLUCZOWE}\n Długość plejlisty do wygenerowanie:{MUZYKA_MOJEGO_LUDU_PLAJLISTA}"
)
MUZYKA_MOJEGO_LUDU_HISTORIA = ile_historii
MUZYKA_MOJEGO_LUDU_SLOWA_KLUCZOWE = ile_slow_kluczowych
MUZYKA_MOJEGO_LUDU_PLAJLISTA = jak_dluga_plejlista
self.logger.info(
"Długość historii wyszukiwania: %s\n Ilość słów kluczowych: %s\n Długość plejlisty do wygenerowanie: %s",
MUZYKA_MOJEGO_LUDU_HISTORIA,
MUZYKA_MOJEGO_LUDU_SLOWA_KLUCZOWE,
MUZYKA_MOJEGO_LUDU_PLAJLISTA,
)
self.ctx.send(
f"Zmienione wartośći:\n Długość historii wyszukiwania: {MUZYKA_MOJEGO_LUDU_HISTORIA}\n Ilość słów kluczowych: {MUZYKA_MOJEGO_LUDU_SLOWA_KLUCZOWE}\n Długość plejlisty do wygenerowanie:{MUZYKA_MOJEGO_LUDU_PLAJLISTA}"
)
except discord.ext.commands.errors.BadArgument as exce:
ctx.send("Spierdalaj")
self.logger.info(exce)
@commands.hybrid_command(
name="graj_muzyko",
description="Włącza muzykę na kanale #nocna-zmiana.",
guild=discord.Object(id=664789470779932693),
)
async def graj_muzyko(self, ctx):
"""
Async function named "graj_muzyko" starts music playback on channel "Nocna Zmiana".
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. This parameter is required in all
Discord.py commands
"""
self.logger.info("Press play on tape")
async with ctx.typing():
global MUZYKA # pylint: disable=global-variable-not-assigned
MUZYKA["ctx"] = ctx
await self.connect(ctx=ctx)
await self.play(ctx=ctx)
self.logger.info("Press play on tape completed")
self.check_music.start()
async def connect(self, ctx, arg=None):
"""
Connect the bot to a voice channel if it is not already connected.
:param ctx: ctx is short for context and refers to the context in which the command was invoked. It
contains information about the message, the channel, the server, and the user who invoked the
command
:param arg: The `arg` parameter is an optional argument that can be passed to the `connect`
function. It is not used in the code snippet provided, but it could potentially be used to specify a
specific voice channel to connect to
:return: If the voice client is already connected, the function will return without doing anything.
If the function successfully connects to the voice channel, it will return a voice channel
connection object. If it is not possible to connect to the voice channel, the function will log an
error message and return nothing.
"""
if ctx and arg:
self.logger.info("Ctx and arg defined for connect")
if self.bot.voice_clients:
self.logger.info("Already connected with other client")
else:
vc = None
if ctx.author.voice.channel:
vc = await ctx.author.voice.channel.connect()
else:
voice_channel = self.bot.get_channel(1060349757349974066)
vc = await voice_channel.connect()
if not vc:
self.logger.error("Not possible to connect to voice")
return
self.logger.info("Connected to voice")
async def disconnect(self, ctx):
"""
Asynchronous Python function that disconnects the voice client if it is connected and
logs a message if the context is defined.
:param ctx: ctx is short for context and refers to the context in which a command is being executed.
It contains information about the message, the user who sent the message, the channel the message
was sent in, and more. In this case, the `disconnect` function is likely being called as a command
in
"""
if ctx:
self.logger.info("Ctx defined for disconnect")
if self.bot.voice_clients:
voice_client = self.bot.voice_clients[0]
if voice_client.is_connected():
await voice_client.disconnect()
async def play(self, ctx, zamawial=None, arg=None):
"""
Play a music file, retrieve metadata about the file, and send a
message to a Discord channel with information about the song being played.
:param ctx: The "ctx" parameter is a context object that contains information about the current
Discord command invocation, such as the message, the channel, and the user who invoked the command.
It is passed to the function automatically by the Discord.py library
:param zamawial: The parameter `zamawial` is a variable that stores the user who requested the song
to be played. It is an optional parameter and can be None if no user requested the song
:param arg: The `arg` parameter is an optional argument that can be passed to the `play` function.
It is not used in the code provided, so its purpose is unclear without additional context
"""
# TODO: Uzupełnianie metadanych. Jeśli ich nie ma sprawdzamy nazwę (w sposób inteligentny - czyli jeśli składa się z samych cyfr i/lub słowa track to sprawdzić album w sensie folder)
# TODO: Jeśli w metadanych jest tylko "audiotrack" i "album" też po
# folderze. Jeśli są niekompletne uzupełnić dalej.
self.logger.info("Play procedure")
if arg:
self.logger.info("Arg defined for play")
file_to_play = None
voice_client = self.bot.voice_clients[0]
if not self.bot.voice_clients:
voice_client = self.bot.voice_clients[0]
await self.connect(ctx)
if MUZYKA["queue"]:
file_to_play = MUZYKA["queue"].pop()
zamawial = MUZYKA["requester"].pop()
self.logger.info("Muzyka z listy zamówień")
else:
# trunk-ignore(bandit/B311)
index = random.randint(
0, len(music_functions.MUSIC_FILE_LIST.get_file_list()) - 1
)
file_to_play = music_functions.MUSIC_FILE_LIST.get_file_list()[index]
self.logger.info("Muzyka losowo")
self.logger.info(file_to_play)
metadata = eyed3.load(file_to_play)
query = None
temp = file_to_play.split(SEPARATOR_FILE_PATH)[-1]
kawalek = f"Zagram teraz kawalek {temp} z prywatnej kolekcji Hammera."
if metadata:
if metadata.tag:
if metadata.tag.title:
query = f"Opowiedz mi o kawałku {metadata.tag.title}"
kawalek = f"Zagram teraz kawalek {metadata.tag.title}"
if metadata.tag.artist:
query += f" wykonawcy {metadata.tag.artist}"
kawalek += f" wykonawcy {metadata.tag.artist}"
if metadata.tag.album:
query += f" z albumu {metadata.tag.album}"
kawalek += f" z albumu {metadata.tag.album}"
kawalek += " z prywatnej kolekcji Hammera."
if zamawial:
kawalek += f"Na specjalne życzenie <@{zamawial.id}>."
await ctx.send(kawalek)
voice_client.play(
discord.PCMVolumeTransformer(
discord.FFmpegPCMAudio(source=file_to_play), volume=0.3
)
) # NIE DOTYKAC POKRĘTŁA GŁOŚNOŚCI!!!!
if query:
self.logger.debug("Zapytanie do openai")
self.logger.debug(query)
vykidailo = False
bartender = False
for role in ctx.message.author.roles:
if role.name == "Vykidailo":
vykidailo = True
if role.name == "Bartender":
bartender = True
if ctx.message.author.nick:
username = ctx.message.author.nick
else:
username = ctx.message.author.name
global MESSAGE_TABLE_MUZYKA # pylint: disable=global-statement
result, MESSAGE_TABLE_MUZYKA = await handle_response(
query, vykidailo, bartender, MESSAGE_TABLE_MUZYKA, username, "MUSIC"
)
self.logger.debug("Obecna historia czatu: %s", MESSAGE_TABLE_MUZYKA)
if len(result) < 1500:
await ctx.send(result)
else:
while len(result) > 1500:
await ctx.send(result[:1500])
result = result[1500:]
async def setup(bot): async def setup(bot):
logger = logging.getLogger("discord") logger = logging.getLogger("discord")
music_functions.MUSIC_FILE_LIST.refresh_file_list() music_functions.MUSIC_FILE_LIST.refresh_file_list()
+57 -19
View File
@@ -1,27 +1,27 @@
import logging
import asyncio import asyncio
import logging
import re
import uuid
from pathlib import Path, PurePath from pathlib import Path, PurePath
from sys import platform from sys import platform
import requests
import yt_dlp
from constants import (
FILE_SERVICE_ADDRESS,
GET_MP3,
GET_PLAYLIST,
MUSIC_FOLDER,
SEND_MP3,
SPOTIFY_CTRL,
)
from spotify_dl import spotify from spotify_dl import spotify
from spotify_dl import youtube as youtube_download from spotify_dl import youtube as youtube_download
import re
import netrc
import spotipy
from spotipy.oauth2 import SpotifyClientCredentials
from constants import NETRC_FILE, MUSIC_FOLDER, FILE_SERVICE_ADDRESS, GET_MP3, SEND_MP3
import yt_dlp
import requests
netrc_mod = netrc.netrc(NETRC_FILE)
REMOTE_HOST_NAME = "spotipy"
authTokens = netrc_mod.authenticators(REMOTE_HOST_NAME)
logger = logging.getLogger("discord") logger = logging.getLogger("discord")
spotify_ctrl = spotipy.Spotify(
client_credentials_manager=SpotifyClientCredentials(
client_id=authTokens[0],
client_secret=authTokens[2],
)
)
class MusicFileList(object): class MusicFileList(object):
""" """
The `MusicFileList` class manages a list of music files, with the ability to refresh the list from a The `MusicFileList` class manages a list of music files, with the ability to refresh the list from a
@@ -74,6 +74,7 @@ class MusicFileList(object):
post_data = {"item": str(item)} post_data = {"item": str(item)}
requests.post(f"{FILE_SERVICE_ADDRESS}{SEND_MP3}", json=post_data, timeout=360) requests.post(f"{FILE_SERVICE_ADDRESS}{SEND_MP3}", json=post_data, timeout=360)
MUSIC_FILE_LIST = MusicFileList(logger) MUSIC_FILE_LIST = MusicFileList(logger)
@@ -103,11 +104,11 @@ async def get_file(ctx, source, link):
logger.info(item_id) logger.info(item_id)
logger.info("Spotify link provided") logger.info("Spotify link provided")
file_list = await asyncio.to_thread( file_list = await asyncio.to_thread(
spotify.fetch_tracks, spotify_ctrl, item_type, link spotify.fetch_tracks, SPOTIFY_CTRL, item_type, link
) )
logger.info(file_list) logger.info(file_list)
directory_name = await asyncio.to_thread( directory_name = await asyncio.to_thread(
spotify.get_item_name, spotify_ctrl, item_type, item_id spotify.get_item_name, SPOTIFY_CTRL, item_type, item_id
) )
logger.info(directory_name) logger.info(directory_name)
logger.info("Spotify scrape done") logger.info("Spotify scrape done")
@@ -245,3 +246,40 @@ async def get_file(ctx, source, link):
) )
file_list.append("wiadomo co wiadomo gdzie") file_list.append("wiadomo co wiadomo gdzie")
return dir_path, file_list return dir_path, file_list
async def search_music(ctx, how_many=0, slowa_kluczowe=None):
"""
Take in a context object and an optional integer parameter "how_many" and perform search
operation on music library.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command
:param how_many: how_many is a parameter that specifies the number of search results to be returned.
It is an optional parameter with a default value of 0, which means that if no value is provided for
how_many, the function will return all search results, defaults to 0 (optional)
"""
# i sieć neuronową z możliwością wyrażenia opinii o dopasowaniu.
if slowa_kluczowe:
word_list = slowa_kluczowe
else:
word_list = ctx.message.content.split()
logger.info("Wyszukuje")
jrequest = {
"lista_slow": word_list,
"dlugosc_plejlisty": how_many,
"UUID": str(uuid.uuid4()),
}
coroutine = asyncio.to_thread(
requests.post,
f"{FILE_SERVICE_ADDRESS}{GET_PLAYLIST}",
json=jrequest,
timeout=360,
)
return_data = await coroutine
if not return_data.status_code == 200:
await ctx.send("Wołaj szefa - coś się wyjebało")
return
logger.info(return_data.json()["data"])
return return_data.json()["data"]
+130 -7
View File
@@ -1,11 +1,17 @@
from discord.ext import commands import asyncio
import json
import logging import logging
import discord from datetime import datetime
from typing import Optional from typing import Optional
from constants import DATA
import discord
from discord.ext import commands
from constants import ACCIDENT_LOG, DATA, ENCODING
historia_fabryczki = DATA["fabryczka"] historia_fabryczki = DATA["fabryczka"]
class OtherModule(commands.Cog): class OtherModule(commands.Cog):
def __init__(self, bot, logger_name): def __init__(self, bot, logger_name):
self.bot = bot self.bot = bot
@@ -46,9 +52,8 @@ class OtherModule(commands.Cog):
"Kogo mam przytulić? *Wyłamuje kostki i przeciąga się - jego 200 kilowa sylwetka złożona z samych mięśni świadczy o tym że jest gotowy*" "Kogo mam przytulić? *Wyłamuje kostki i przeciąga się - jego 200 kilowa sylwetka złożona z samych mięśni świadczy o tym że jest gotowy*"
) )
@commands.hybrid_command(name="fabryczka", description="Historia fabryczki") @commands.hybrid_command(name="fabryczka", description="Historia fabryczki")
async def fabryczka(self,ctx): async def fabryczka(self, ctx):
""" """
Send a general description of "fabryczkagate" to channel. Send a general description of "fabryczkagate" to channel.
@@ -59,10 +64,128 @@ class OtherModule(commands.Cog):
""" """
await ctx.send(historia_fabryczki) await ctx.send(historia_fabryczki)
@commands.hybrid_command(
name="reset_the_clock",
description="Resetowanie zegara - dostępne wyłącznie dla Hammera",
guild=discord.Object(id=664789470779932693),
)
async def reset_the_clock(self, ctx):
"""
Reset the clock on "accidents" in Hammer Fortress adding a new one.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. This parameter is required in all
Discord.py commands
"""
hammer = False
for role in ctx.message.author.roles:
if role.name == "Bartender":
hammer = True
if hammer:
with open(ACCIDENT_LOG, "r+", encoding=ENCODING) as new_file_accidents:
# First we load existing data into a dict.
file_data = json.load(new_file_accidents)
czas = datetime.strptime(file_data[-1][1], "%Y-%m-%d %H:%M:%S.%f")
opis = ctx.message.content[16:]
accident = accident = [opis, f"{datetime.now()}"]
file_data.append(accident)
new_file_accidents.seek(0)
# convert back to json.
json.dump(file_data, new_file_accidents, indent=4)
await ctx.send(
f"Komenda mierząca incydenty w Eldritch AbsinthHammerTimeSpaceContinuum.\n RESET THE CLOCK. Od ostatniego incydentu w chacie Hammera minęło {czas}. No ale teraz się odpierdoliło: {opis}"
)
else:
await ctx.send(
f"Komenda mierząca incydenty w Eldritch AbsinthHammerTimeSpaceContinuum.\n Gdzie z łapami do zegara? {self.bot.get_user(346956223645614080).mention} coś albo się komuś stało albo zaraz się stanie jak będzie zegar tykał...."
)
@commands.hybrid_command(
name="chata_hammera",
description="Czas od ostatniego incydentu w AbsinthHammerTimeSpaceContinuum",
)
async def chata_hammera(ctx):
"""
Send measured time from last incident in Hammer Fortress to the chat.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
contains information about the context in which the command was invoked, such as the message, the
channel, the server, and the user who invoked the command. This information can be used to perform
various actions, such
"""
with open(ACCIDENT_LOG, "r+", encoding=ENCODING) as new_file:
# First we load existing data into a dict.
file_data = json.load(new_file)
opis = file_data[-1][0]
czas = datetime.strptime(file_data[-1][1], "%Y-%m-%d %H:%M:%S.%f")
await ctx.send(
f"Komenda mierząca incydenty w Eldritch AbsinthHammerTimeSpaceContinuum.\n Od ostatniego incydentu w chacie Hammera minęło {datetime.now() - czas}. Incydent to: {opis}"
)
@commands.hybrid_command(
name="historia_incydentow_u_hammera",
description="Wyswietla liste incydentów które miały miejsce w AbsinthHammerTimeSpaceContinuum.",
)
async def historia_incydentow_u_hammera(ctx):
"""
Send a list of incidents in Hammer Fortress to the chat.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
contains information about the context in which the command was invoked, such as the message, the
channel, the server, and the user who invoked the command. This information can be used to perform
various actions, such
"""
with open(ACCIDENT_LOG, "r+", encoding=ENCODING) as new_file_accidents:
# First we load existing data into a dict.
file_data = json.load(new_file_accidents)
return_data = "Komenda mierząca incydenty w Eldritch AbsinthHammerTimeSpaceContinuum.\n Historia zarejestrownych incydentów u Hammera:\n"
index = 1
for iter_data in file_data:
opis = iter_data[0]
czas = datetime.strptime(iter_data[1], "%Y-%m-%d %H:%M:%S.%f")
add_data = f"{index}. Opis: {opis} Data: {czas}"
return_data = return_data + add_data + "\n"
index += 1
await ctx.send(return_data)
# TODO: RADIO
@commands.hybrid_command(
name="radio_hardkor",
description="Włącza radio Conjurer na kanale #nocna-zmiana.",
guild=discord.Object(id=664789470779932693),
)
async def radio_hardkor(self, ctx):
"""
Plays the radio hardkor stream in the voice channel.
Args:
ctx: The context object representing the invocation context.
Returns:
None
"""
self.logger.info("Press play on radio hardkor")
async with ctx.typing():
global MUZYKA # pylint: disable=global-variable-not-assigned
MUZYKA["ctx"] = ctx
if not self.bot.voice_clients:
await self.connect(ctx=ctx)
voice_client = self.bot.voice_clients[0]
voice_client.play(
discord.PCMVolumeTransformer(
discord.FFmpegPCMAudio("http://95.175.16.246:666/mp3-stream"),
volume=0.3,
)
)
self.logger.info("Press play on radio completed")
else:
self.logger.error("Already playing")
await asyncio.sleep(12)
self.check_music.start()
async def setup(bot): async def setup(bot):
logger = logging.getLogger("discord") logger = logging.getLogger("discord")
logger.info("Playlist generation")
await bot.add_cog(OtherModule(bot, "discord")) await bot.add_cog(OtherModule(bot, "discord"))
logger.info("Loading other module done") logger.info("Loading kitchen sink module done")
+88
View File
@@ -0,0 +1,88 @@
# define an asynchronous generator
async def async_iterator_generator(range_of_iterable):
"""
Generate asynchronouse iterator.
This is an incomplete function definition for an asynchronous iterator generator that takes a range
of iterable as input.
:param range_of_iterable: The parameter `range_of_iterable` is likely a range or iterable object
that the async iterator generator will iterate over asynchronously. It could be a list, tuple, set,
or any other iterable object. The generator will yield each item in the iterable object
asynchronously, allowing other code to run in between
"""
# normal loop
for i in range_of_iterable:
# pylint: disable=pointless-string-statement
# yield the result
yield i
"""
Alternatywna wersja przerobienia fora na asynchroniczny.
# traverse the iterable of awaitables
for item in coros:
# await and get the result from the awaitable
result = await item
# report the results
print(result)
"""
# TODO: OTHER
async def remove_characters(string, character):
"""
The `remove_characters` function removes all occurrences of a specified character from a given
string.
:param string: The string parameter is the input string from which characters will be removed
:param character: The character parameter is the character that you want to remove from the string
:return: a new string where all occurrences of the specified character have been removed.
"""
return string.replace(character, "")
# TODO: OTHER
async def max_weight(lista):
"""
Take a list of weights and return the maximum weight.
:param lista: It seems like the parameter `lista` is a list of items, possibly representing weights.
The function name `max_weight` suggests that the function is intended to find the maximum weight
from the list. However, without more context or information about the problem, it's difficult to say
for sure what the
"""
maximum_weight = 0
for iterator in lista:
if iterator[0] > maximum_weight:
maximum_weight = iterator[0]
return maximum_weight
async def get_stats(client, ctx, history_limit):
"""
The `get_stats` function retrieves the message history of a specific channel and counts the
frequency of each word in the messages.
:param ctx: The `ctx` parameter is an object that represents the context of the command being
executed. It contains information such as the message, the author, the server, and other relevant
details
:param history_limit: The `history_limit` parameter is the maximum number of messages to retrieve
from the channel history. It determines how far back in time the statistics will be calculated
:return: The function `get_stats` returns a dictionary `stats` that contains the frequency count of
words found in the messages from the specified channel.
"""
channel_id = 1062047367337095268
async with ctx.typing():
stats = {}
channel = client.get_channel(channel_id)
messages = [message async for message in channel.history(limit=history_limit)]
# traverse the iterable of awaitables
for message in messages:
# await and get the result from the awaitable
result = message.content
words = result.split()
for word in words:
if word in stats:
stats[word] += 1
else:
stats[word] = 1
for name, how_many in stats.items():
yield name, how_many
+201 -1
View File
@@ -1 +1,201 @@
import music_functions import logging
from discord.ext import commands
import discord
# trunk-ignore(bandit/B404)
import subprocess
import requests
import uuid
import asyncio
from datetime import datetime
from constants import RADIO_HARBOR_ADDRESS, SKIP_TRACK, FILE_SERVICE_ADDRESS, ADD_TO_PRIO_PLAYLIST, REQUEST_MUSIC, CREATE_PRIO_PLAYLIST, CLEAR_PRIO
class RadioModule(commands.Cog):
def __init__(self, bot, logger_name):
self.bot = bot
self.logger = logging.getLogger(logger_name)
@commands.hybrid_command(
name="skip_track",
description="Przeskocz kawałek w radiu",
guild=discord.Object(id=664789470779932693),
)
async def skip_track(self, ctx):
async with ctx.typing():
allowed = False
for role in ctx.author.roles:
if role.name in ("Thane", "Jarl"):
allowed = True
if not allowed:
await ctx.send("Łapy precz od radia")
else:
coroutine = asyncio.to_thread(
requests.get,
f"{RADIO_HARBOR_ADDRESS}{SKIP_TRACK}",
timeout=360,
)
result = await coroutine
self.logger.info("Done %s", result)
await ctx.send("Zrobione szefie!")
@commands.hybrid_command(
name="zrestartuj_radio",
description="Komenda ktora uruchamia radio ponownie jakby się zawiesiło",
guild=discord.Object(id=664789470779932693),
)
async def zrestartuj_radio(self, ctx):
async with ctx.typing():
allowed = False
for role in ctx.author.roles:
if role.name in ("Thane", "Jarl"):
allowed = True
if not allowed:
await ctx.send("Łapy precz od radia")
else:
retcode = subprocess.run(
"/home/pi/Conjurer/restart_radio.sh",
# trunk-ignore(bandit/B603)
shell=False,
check=False,
capture_output=True,
)
self.logger.info("Wynik: %s", retcode)
@commands.hybrid_command(
name="dodaj_do_ulubionych",
description="Dodaje do listy ulubionych w radiu",
guild=discord.Object(id=664789470779932693),
)
async def dodaj_do_ulubionych(self, ctx):
"""
Generate a playlist in queue. First word in this command shall be int defining length of the playlist.
Rest of the line are search terms.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. This parameter is required in all
Discord.py commands
"""
async with ctx.typing():
self.logger.info("Zaczynam szukać timestamp %s", datetime.now())
dlugosc_playlisty = ctx.message.content.split()[1]
word_list = ctx.message.content.split()
jrequest = {
"lista_slow": word_list,
"dlugosc_plejlisty": dlugosc_playlisty,
"UUID": str(uuid.uuid4()),
}
coroutine = asyncio.to_thread(
requests.post,
f"{FILE_SERVICE_ADDRESS}{ADD_TO_PRIO_PLAYLIST}",
json=jrequest,
timeout=360,
)
result = await coroutine
self.logger.info("Done %s", result)
await ctx.send("Zrobione szefie!")
@commands.hybrid_command(
name="ja_chciol",
description="Dodaje do listy ulubionych w radiu",
guild=discord.Object(id=664789470779932693),
)
async def request_radio(self, ctx):
"""
Generate a playlist in queue. First word in this command shall be int defining length of the playlist.
Rest of the line are search terms.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. This parameter is required in all
Discord.py commands
"""
async with ctx.typing():
self.logger.info("Zaczynam szukać timestamp %s", datetime.now())
word_list = ctx.message.content.split()
jrequest = {
"lista_slow": word_list,
"UUID": str(uuid.uuid4()),
}
coroutine = asyncio.to_thread(
requests.post,
f"{FILE_SERVICE_ADDRESS}{REQUEST_MUSIC}",
json=jrequest,
timeout=360,
)
result = await coroutine
self.logger.info("Done %s", result)
await ctx.send("Zrobione szefie!")
@commands.hybrid_command(
name="stworz_audycje",
description="Dodaje do listy ulubionych w radiu",
guild=discord.Object(id=664789470779932693),
)
async def stworz_audycje(self, ctx):
"""
Generate a playlist in queue. First word in this command shall be int defining length of the playlist.
Rest of the line are search terms.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. This parameter is required in all
Discord.py commands
"""
async with ctx.typing():
self.logger.info("Zaczynam szukać timestamp %s", datetime.now())
dlugosc_playlisty = ctx.message.content.split()[1]
word_list = ctx.message.content.split()
jrequest = {
"lista_slow": word_list,
"dlugosc_plejlisty": dlugosc_playlisty,
"UUID": str(uuid.uuid4()),
}
coroutine = asyncio.to_thread(
requests.post,
f"{FILE_SERVICE_ADDRESS}{CREATE_PRIO_PLAYLIST}",
json=jrequest,
timeout=360,
)
result = await coroutine
self.logger.info("Done %s", result)
await ctx.send("Zrobione szefie!")
@commands.hybrid_command(
name="wyczysc_ulubione",
description="Czysci liste ulubionych w radiu",
guild=discord.Object(id=664789470779932693),
)
async def wyczysc_ulubione(self, ctx):
"""
Generate a playlist in queue. First word in this command shall be int defining length of the playlist.
Rest of the line are search terms.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. This parameter is required in all
Discord.py commands
"""
async with ctx.typing():
coroutine = asyncio.to_thread(
requests.get,
f"{FILE_SERVICE_ADDRESS}{CLEAR_PRIO}",
timeout=360,
)
result = await coroutine
self.logger.info("Done %s", result)
await ctx.send("Zrobione szefie!")
async def setup(bot):
logger = logging.getLogger("discord")
await bot.add_cog(RadioModule(bot, "discord"))
logger.info("Loading raadio commands module done")
+21
View File
@@ -0,0 +1,21 @@
setuptools
discord
yaach
t_dlp
spotify_dl
spotipy
openai
eyed3
numpy
pdf2image
PyPDF2
requests
spotipy
tiktoken
PyNaCl
flask[async]
waitress
clickupython
assemblyai[extras]
SpeechRecognition
git+https://github.com/imayhaveborkedit/discord-ext-voice-recvO
+3 -2
View File
@@ -1,3 +1,4 @@
setuptools
discord discord
yt_dlp yt_dlp
spotify_dl spotify_dl
@@ -11,9 +12,9 @@ requests
spotipy spotipy
tiktoken tiktoken
PyNaCl PyNaCl
flask flask[async]
waitress waitress
clickupython clickupython
assemblyai[extras] assemblyai[extras]
SpeechRecognition SpeechRecognition
git+https://github.com/imayhaveborkedit/discord-ext-voice-recv git+https://github.com/imayhaveborkedit/discord-ext-voice-recvO
+30 -25
View File
@@ -6,57 +6,62 @@
# #
# Note: Some macOS users might need to use `pip3` instead of `pip`. # Note: Some macOS users might need to use `pip3` instead of `pip`.
import pyaudio
import assemblyai as aai import assemblyai as aai
import pyaudio
aai.settings.api_key = "aa9962f0088a449a9c4ab2361e96cc08" aai.settings.api_key = "aa9962f0088a449a9c4ab2361e96cc08"
def on_open(session_opened: aai.RealtimeSessionOpened):
"This function is called when the connection has been established."
print("Session ID:", session_opened.session_id) def on_open(session_opened: aai.RealtimeSessionOpened):
"This function is called when the connection has been established."
print("Session ID:", session_opened.session_id)
def on_data(transcript: aai.RealtimeTranscript): def on_data(transcript: aai.RealtimeTranscript):
"This function is called when a new transcript has been received." "This function is called when a new transcript has been received."
if not transcript.text: if not transcript.text:
return return
if isinstance(transcript, aai.RealtimeFinalTranscript):
print(transcript.text, end="\r\n")
else:
print(transcript.text, end="\r")
if isinstance(transcript, aai.RealtimeFinalTranscript):
print(transcript.text, end="\r\n")
else:
print(transcript.text, end="\r")
def on_error(error: aai.RealtimeError): def on_error(error: aai.RealtimeError):
"This function is called when the connection has been closed." "This function is called when the connection has been closed."
print("An error occured:", error)
print("An error occured:", error)
def on_close(): def on_close():
"This function is called when the connection has been closed." "This function is called when the connection has been closed."
print("Closing Session")
print("Closing Session")
transcriber = aai.RealtimeTranscriber( transcriber = aai.RealtimeTranscriber(
on_data=on_data, on_data=on_data,
on_error=on_error, on_error=on_error,
sample_rate=44_100, sample_rate=44_100,
on_open=on_open, # optional on_open=on_open, # optional
on_close=on_close, # optional on_close=on_close, # optional
) )
pa = pyaudio.PyAudio() pa = pyaudio.PyAudio()
for i in range(pa.get_device_count()): for i in range(pa.get_device_count()):
print (pa.get_device_info_by_index(i)) print(pa.get_device_info_by_index(i))
# Start the connection # Start the connection
#transcriber.connect() # transcriber.connect()
# Open a microphone stream # Open a microphone stream
#microphone_stream = aai.extras.MicrophoneStream() # microphone_stream = aai.extras.MicrophoneStream()
# Press CTRL+C to abort # Press CTRL+C to abort
#transcriber.stream(microphone_stream) # transcriber.stream(microphone_stream)
#transcriber.close() # transcriber.close()
+20
View File
@@ -0,0 +1,20 @@
import logging
from logging import handlers
logger = logging.getLogger("discord")
logger.setLevel(logging.DEBUG)
handler = handlers.RotatingFileHandler(
filename="test.log",
encoding="utf-8",
mode="a",
maxBytes=6 * 1024 * 1024,
backupCount=6,
)
formatter = logging.Formatter("%(asctime)s - %(name)s - %(levelname)s - %(message)s")
handler.setFormatter(formatter)
logger.addHandler(handler)
logger2 = logging.getLogger("discord")
for item in logger2.handlers:
print(item)
+2 -1
View File
@@ -1,7 +1,8 @@
import time import time
first_time = time.time_ns() first_time = time.time_ns()
time.sleep(1) time.sleep(1)
time_diff = time.time_ns() - first_time time_diff = time.time_ns() - first_time
print(time_diff) print(time_diff)
#2000149433 # 2000149433
+17 -2111
View File
File diff suppressed because it is too large Load Diff
+104 -64
View File
@@ -1,11 +1,12 @@
import logging
import wave
import asyncio import asyncio
import logging
import netrc import netrc
import time import time
import discord import wave
import assemblyai as aai import assemblyai as aai
from discord.ext import commands, voice_recv, tasks import discord
from discord.ext import commands, tasks, voice_recv
from discord.opus import Decoder as OpusDecoder from discord.opus import Decoder as OpusDecoder
# Replace with your API key # Replace with your API key
@@ -19,37 +20,45 @@ CHANNELS = OpusDecoder.CHANNELS
SAMPLE_WIDTH = OpusDecoder.SAMPLE_SIZE // OpusDecoder.CHANNELS SAMPLE_WIDTH = OpusDecoder.SAMPLE_SIZE // OpusDecoder.CHANNELS
SAMPLING_RATE = OpusDecoder.SAMPLING_RATE SAMPLING_RATE = OpusDecoder.SAMPLING_RATE
#rotate file after there is 0.5s between last received pcm for user. # rotate file after there is 0.5s between last received pcm for user.
#delete messsages after user disconnect # delete messsages after user disconnect
LOCATION = "/home/pi/Conjurer/transcripts/"
logger = logging.getLogger("discord")
location = "/home/pi/Conjurer/transcripts/"
class CommunicationObject: class CommunicationObject:
def __init__(self, msg_type, user, data): def __init__(self, msg_type, user, data):
self.logger = logging.getLogger("discord")
self.type = msg_type self.type = msg_type
self.user = user self.user = user
self.data = data self.data = data
def __repr__(self): def __repr__(self):
return f"{self.type} : {self.user} : {self.data}" return f"{self.type} : {self.user} : {self.data}"
class WaveWriter: class WaveWriter:
def __init__(self, user_id, queue): def __init__(self, user_id, queue, location):
self.queue = queue self.queue = queue
self.user = user_id self.user = user_id
self.username = str(user_id.id) self.username = str(user_id.id)
#here we can add hashing function to make transcription files not possible to be connected with discord id self.location = location
# here we can add hashing function to make transcription files not possible to be connected with discord id
self.present_file_id = 0 self.present_file_id = 0
self.file_name_past = None self.file_name_past = None
self.file_name_present = location + self.username + "_" + str(self.present_file_id) + ".mp3" self.file_name_present = (
self.transcript_file_present : wave.Wave_write = wave.open( self.location + self.username + "_" + str(self.present_file_id) + ".mp3"
)
self.transcript_file_present: wave.Wave_write = wave.open(
self.file_name_present, "wb" self.file_name_present, "wb"
) )
self.transcript_file_present.setnchannels(CHANNELS) self.transcript_file_present.setnchannels(CHANNELS)
self.transcript_file_present.setsampwidth(SAMPLE_WIDTH) self.transcript_file_present.setsampwidth(SAMPLE_WIDTH)
self.transcript_file_present.setframerate(SAMPLING_RATE) self.transcript_file_present.setframerate(SAMPLING_RATE)
self.file_name_future = location + self.username + "_" + str(self.present_file_id + 1) + ".mp3" self.file_name_future = (
self.transcript_file_future : wave.Wave_write = wave.open( self.location + self.username + "_" + str(self.present_file_id + 1) + ".mp3"
)
self.transcript_file_future: wave.Wave_write = wave.open(
self.file_name_future, "wb" self.file_name_future, "wb"
) )
self.transcript_file_future.setnchannels(CHANNELS) self.transcript_file_future.setnchannels(CHANNELS)
@@ -66,14 +75,18 @@ class WaveWriter:
self.present_file_id += 1 self.present_file_id += 1
self.file_name_present = self.file_name_future self.file_name_present = self.file_name_future
self.transcript_file_present = self.transcript_file_future self.transcript_file_present = self.transcript_file_future
self.file_name_future = location + self.username + "_" + str(self.present_file_id + 1) + ".mp3" self.file_name_future = (
self.transcript_file_future : wave.Wave_write = wave.open( self.location + self.username + "_" + str(self.present_file_id + 1) + ".mp3"
)
self.transcript_file_future: wave.Wave_write = wave.open(
self.file_name_future, "wb" self.file_name_future, "wb"
) )
self.transcript_file_future.setnchannels(CHANNELS) self.transcript_file_future.setnchannels(CHANNELS)
self.transcript_file_future.setsampwidth(SAMPLE_WIDTH) self.transcript_file_future.setsampwidth(SAMPLE_WIDTH)
self.transcript_file_future.setframerate(SAMPLING_RATE) self.transcript_file_future.setframerate(SAMPLING_RATE)
operation = CommunicationObject(msg_type="send_file",user=self.user,data=[self.file_name_past]) operation = CommunicationObject(
msg_type="send_file", user=self.user, data=[self.file_name_past]
)
await self.queue.put(operation) await self.queue.put(operation)
@@ -81,7 +94,7 @@ class WaveWriter:
self.transcript_file_present.writeframes(pcmdata) self.transcript_file_present.writeframes(pcmdata)
def cleanup(self): def cleanup(self):
logger.info("Cleanup for user %s", self.username) self.logger.info("Cleanup for user %s", self.username)
self.transcript_file_present.close() self.transcript_file_present.close()
self.transcript_file_future.close() self.transcript_file_future.close()
@@ -90,17 +103,26 @@ class SRBuffer(voice_recv.AudioSink):
"""Endpoint AudioSink that generates a wav file. """Endpoint AudioSink that generates a wav file.
Best used in conjunction with a silence generating sink. (TBD) Best used in conjunction with a silence generating sink. (TBD)
""" """
# on member join dodajemytypa do listy # on member join dodajemytypa do listy
# on member disconnect - dropujemy go # on member disconnect - dropujemy go
def __init__(self, queue): def __init__(self, queue, location):
super().__init__() super().__init__()
self.queue = queue self.queue = queue
self.wavewriter = {} self.wavewriter = {}
self.logger = logging.getLogger("discord")
self.location = location
def on_user_connect(self, username): def on_user_connect(self, username):
self.wavewriter[str(username.id)] = [WaveWriter(username, self.queue), time.time_ns(), time.time_ns(), False, False] self.wavewriter[str(username.id)] = [
WaveWriter(username, self.queue, self.location),
time.time_ns(),
time.time_ns(),
False,
False,
]
def on_user_disconnect(self,username): def on_user_disconnect(self, username):
self.wavewriter[str(username.id)].cleanup() self.wavewriter[str(username.id)].cleanup()
self.wavewriter.pop(str(username.id)) self.wavewriter.pop(str(username.id))
@@ -108,21 +130,23 @@ class SRBuffer(voice_recv.AudioSink):
return False return False
def write(self, user, data) -> None: def write(self, user, data) -> None:
#logger.info("DAta write") # logger.info("DAta write")
if user: if user:
self.wavewriter[str(user.id)][0].writeframes(data.pcm) self.wavewriter[str(user.id)][0].writeframes(data.pcm)
self.wavewriter[str(user.id)][1] = time.time_ns() #time from last write self.wavewriter[str(user.id)][1] = time.time_ns() # time from last write
self.wavewriter[str(user.id)][3] = True #data written in last iter self.wavewriter[str(user.id)][3] = True # data written in last iter
self.wavewriter[str(user.id)][4] = True #data in buff self.wavewriter[str(user.id)][4] = True # data in buff
time.sleep(0.001) time.sleep(0.001)
def cleanup(self) -> None: def cleanup(self) -> None:
try: try:
logger.info("Cleanup for SRBuffer") self.logger.info("Cleanup for SRBuffer")
for item in self.wavewriter.values(): for item in self.wavewriter.values():
item[0].cleanup() item[0].cleanup()
except Exception: except Exception:
logger.warning("WaveSink got error closing file on cleanup", exc_info=True) self.logger.warning(
"WaveSink got error closing file on cleanup", exc_info=True
)
class Transcriber(commands.Cog): class Transcriber(commands.Cog):
@@ -130,41 +154,53 @@ class Transcriber(commands.Cog):
self.bot = bot self.bot = bot
self.threads = [] self.threads = []
self.comm_queue = asyncio.Queue() self.comm_queue = asyncio.Queue()
self.wsink = SRBuffer(self.comm_queue) self.wsink = SRBuffer(self.comm_queue, LOCATION)
self.worker = None self.worker = None
self.mc = None self.mc = None
self.vc = None self.vc = None
self.logger = logging.getLogger("discord")
@commands.hybrid_command(name="transcribe") @commands.hybrid_command(name="transcribe")
async def test(self, ctx): async def test(self, ctx):
if self.vc: if self.vc:
vc = self.vc #to juz powinien byc voice channel z funkcja conenct vc = self.vc # to juz powinien byc voice channel z funkcja conenct
else: else:
vc = None vc = None
self.mc = ctx.message.channel self.mc = ctx.message.channel
if self.bot.voice_clients: if self.bot.voice_clients:
if isinstance(self.bot.voice_clients[0], voice_recv.VoiceRecvClient): if isinstance(self.bot.voice_clients[0], voice_recv.VoiceRecvClient):
logger.debug("Already transcribing") self.logger.debug("Already transcribing")
else: else:
logger.debug("Already connected with other client") self.logger.debug("Already connected with other client")
else: else:
logger.debug("Connected") self.logger.debug("Connected")
vc = await ctx.author.voice.channel.connect(cls=voice_recv.VoiceRecvClient) vc = await ctx.author.voice.channel.connect(cls=voice_recv.VoiceRecvClient)
logger.info(self.bot.voice_clients) self.logger.info(self.bot.voice_clients)
self.check_data.start() self.check_data.start()
self.worker = asyncio.create_task(self.transcribe_output_queue()) self.worker = asyncio.create_task(self.transcribe_output_queue())
vc.listen(self.wsink) vc.listen(self.wsink)
@tasks.loop(seconds=0.5) @tasks.loop(seconds=0.5)
async def check_data(self): async def check_data(self):
for item in self.wsink.wavewriter.values(): for item in self.wsink.wavewriter.values():
if not item[3]: if not item[3]:
timediff_rotation = time.time_ns() - item[2] timediff_rotation = time.time_ns() - item[2]
timediff_write = time.time_ns() -item[1] timediff_write = time.time_ns() - item[1]
if timediff_rotation > 13000149433 and timediff_write > 500014943 and item[4]: if (
logger.info("File rotation time since last write %s %s", timediff_write, timediff_write/1e9) timediff_rotation > 13000149433
logger.info("File rotation time since last rotation %s %s",timediff_rotation, timediff_rotation/1e9) and timediff_write > 500014943
and item[4]
):
self.logger.info(
"File rotation time since last write %s %s",
timediff_write,
timediff_write / 1e9,
)
self.logger.info(
"File rotation time since last rotation %s %s",
timediff_rotation,
timediff_rotation / 1e9,
)
item[2] = time.time_ns() item[2] = time.time_ns()
item[4] = False item[4] = False
await item[0].rotate() await item[0].rotate()
@@ -173,67 +209,71 @@ class Transcriber(commands.Cog):
@commands.Cog.listener() @commands.Cog.listener()
async def on_voice_state_update(self, user, before, after): async def on_voice_state_update(self, user, before, after):
if user == self.bot.user: if user == self.bot.user:
logger.debug("Ignoring self") self.logger.debug("Ignoring self")
return return
if before.channel is None: if before.channel is None:
logger.info("User %s connected to channel %s", user, after.channel.name) self.logger.info(
"User %s connected to channel %s", user, after.channel.name
)
self.wsink.on_user_connect(user) self.wsink.on_user_connect(user)
elif after.channel is None: elif after.channel is None:
logger.info("User %s disconnected from channel %s", user, before.channel.name) self.logger.info(
operation = CommunicationObject(msg_type="user_cleanup", user=user, data=None) "User %s disconnected from channel %s", user, before.channel.name
)
operation = CommunicationObject(
msg_type="user_cleanup", user=user, data=None
)
await self.comm_queue.put(operation) await self.comm_queue.put(operation)
else: else:
logger.debug("User VC status changed %s", user.id) self.logger.debug("User VC status changed %s", user.id)
logger.debug("Before %s", before) self.logger.debug("Before %s", before)
logger.debug("After %s", after) self.logger.debug("After %s", after)
@commands.command(name="stop_transcribe") @commands.command(name="stop_transcribe")
async def stop(self, ctx): async def stop(self, ctx):
self.check_data.stop() self.check_data.stop()
stop_token = CommunicationObject("STOP",None,None) stop_token = CommunicationObject("STOP", None, None)
await self.comm_queue.put(stop_token) await self.comm_queue.put(stop_token)
await ctx.voice_client.disconnect() await ctx.voice_client.disconnect()
async def transcribe_output_queue(self): async def transcribe_output_queue(self):
logger.info("Transcript uploader start") self.logger.info("Transcript uploader start")
config = aai.TranscriptionConfig(language_code="pl") config = aai.TranscriptionConfig(language_code="pl")
transcriber = aai.Transcriber() transcriber = aai.Transcriber()
logger.debug("Transcriber queue id: %s",id(self.comm_queue)) self.logger.debug("Transcriber queue id: %s", id(self.comm_queue))
while True: while True:
logger.debug("waiting for tasks") self.logger.debug("waiting for tasks")
item = await self.comm_queue.get() item = await self.comm_queue.get()
logger.debug("Got %s", item) self.logger.debug("Got %s", item)
if "STOP" in item.type: if "STOP" in item.type:
logger.debug("Queue ended") self.logger.debug("Queue ended")
break break
elif "send_file" in item.type: elif "send_file" in item.type:
logger.debug("Sending file for transcription") self.logger.debug("Sending file for transcription")
transcript = None transcript = None
for iter in item.data: for iter in item.data:
try: try:
coro = asyncio.to_thread( coro = asyncio.to_thread(
transcriber.transcribe, transcriber.transcribe, iter, config=config
iter,
config=config
) )
transcript = await coro transcript = await coro
except Exception as e: except Exception as e:
logger.warn("Exceptiom occured %s", e) self.logger.warn("Exceptiom occured %s", e)
await self.mc.send(f"{item.user} : {transcript.text}") await self.mc.send(f"{item.user} : {transcript.text}")
if transcript.error: if transcript.error:
logger.error(transcript.error) self.logger.error(transcript.error)
raise AssertionError raise AssertionError
elif "user_cleanup" in item.type: elif "user_cleanup" in item.type:
logger.info("User %s disconnected - cleanup action") self.logger.info("User %s disconnected - cleanup action")
else: else:
logger.warn("Something went wrong with object %s", item) self.logger.warn("Something went wrong with object %s", item)
logger.info("Transcript uploader stoped") self.logger.info("Transcript uploader stoped")
async def setup(bot): async def setup(bot):
logger = logging.getLogger("discord") logger = logging.getLogger("discord")
await bot.add_cog(Transcriber(bot)) await bot.add_cog(Transcriber(bot))
logger.info("Loading voice transcribed module done") logger.info("Loading voice transcriber module done")