411 lines
20 KiB
Python
411 lines
20 KiB
Python
import pandas as pd
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from HTS2 import HTS
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from dateutil.relativedelta import relativedelta
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from datetime import datetime, timedelta
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import sqlite3
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import telegram
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import time
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import requests
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import json
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import asyncio
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from multiprocessing import Pool
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import schedule
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from config import *
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import FinanceDataReader as fdr
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import numpy as np
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import os
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class Monitor:
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"""자산(코인/주식/ETF) 모니터링 및 매수 실행 클래스"""
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cooldown_file = None
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def __init__(self, cooldown_file='coins_buy_time.json') -> None:
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self.hts = HTS()
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if cooldown_file is not None:
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self.cooldown_file = cooldown_file
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self.buy_cooldown = self._load_buy_cooldown()
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# ------------- Persistence -------------
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def _load_buy_cooldown(self) -> dict:
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if os.path.exists(self.cooldown_file):
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try:
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with open(self.cooldown_file, 'r', encoding='utf-8') as f:
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data = json.load(f)
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cooldown: dict[str, datetime] = {}
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for symbol, time_str in data.items():
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cooldown[symbol] = datetime.fromisoformat(time_str)
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return cooldown
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except Exception as e:
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print(f"Error loading cooldown data: {e}")
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return {}
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return {}
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def _save_buy_cooldown(self) -> None:
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try:
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data: dict[str, str] = {}
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for symbol, dt in self.buy_cooldown.items():
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data[symbol] = dt.isoformat()
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with open(self.cooldown_file, 'w', encoding='utf-8') as f:
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json.dump(data, f, ensure_ascii=False, indent=2)
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except Exception as e:
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print(f"Error saving cooldown data: {e}")
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# ------------- Telegram -------------
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def _send_coin_msg(self, text: str) -> None:
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coin_client = telegram.Bot(token=COIN_TELEGRAM_BOT_TOKEN)
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asyncio.run(coin_client.send_message(chat_id=COIN_TELEGRAM_CHAT_ID, text=text))
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def _send_stock_msg(self, text: str) -> None:
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stock_client = telegram.Bot(token=STOCK_TELEGRAM_BOT_TOKEN)
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asyncio.run(stock_client.send_message(chat_id=STOCK_TELEGRAM_CHAT_ID, text=text))
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def send_coin_telegram_message(self, message_list: list[str], header: str) -> None:
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payload = header + "\n"
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for i, message in enumerate(message_list):
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payload += message
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if i + 1 % 20 == 0:
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pool = Pool(12)
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pool.map(self._send_coin_msg, [payload])
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payload = ''
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if len(message_list) % 20 != 0:
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pool = Pool(12)
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pool.map(self._send_coin_msg, [payload])
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def send_stock_telegram_message(self, message_list: list[str], header: str) -> None:
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payload = header + "\n"
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for i, message in enumerate(message_list):
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payload += message
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if i + 1 % 20 == 0:
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pool = Pool(12)
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pool.map(self._send_stock_msg, [payload])
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payload = ''
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if len(message_list) % 20 != 0:
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pool = Pool(12)
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pool.map(self._send_stock_msg, [payload])
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# ------------- Indicators -------------
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def normalize_data(self, data: pd.DataFrame) -> pd.DataFrame:
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columns_to_normalize = ['Open', 'High', 'Low', 'Close', 'Volume']
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normalized_data = data.copy()
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for column in columns_to_normalize:
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min_val = data[column].rolling(window=20).min()
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max_val = data[column].rolling(window=20).max()
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denominator = max_val - min_val
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normalized_data[f'{column}_Norm'] = np.where(
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denominator != 0,
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(data[column] - min_val) / denominator,
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0.5,
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)
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return normalized_data
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def calculate_technical_indicators(self, data: pd.DataFrame) -> pd.DataFrame:
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data = self.normalize_data(data)
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data['MA5'] = data['Close'].rolling(window=5).mean()
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data['MA20'] = data['Close'].rolling(window=20).mean()
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data['MA40'] = data['Close'].rolling(window=40).mean()
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data['MA120'] = data['Close'].rolling(window=120).mean()
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data['MA200'] = data['Close'].rolling(window=200).mean()
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data['MA240'] = data['Close'].rolling(window=240).mean()
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data['MA720'] = data['Close'].rolling(window=720).mean()
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data['MA1440'] = data['Close'].rolling(window=1440).mean()
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data['Deviation5'] = (data['Close'] / data['MA5']) * 100
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data['Deviation20'] = (data['Close'] / data['MA20']) * 100
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data['Deviation40'] = (data['Close'] / data['MA40']) * 100
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data['Deviation120'] = (data['Close'] / data['MA120']) * 100
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data['Deviation200'] = (data['Close'] / data['MA200']) * 100
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data['Deviation240'] = (data['Close'] / data['MA240']) * 100
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data['Deviation720'] = (data['Close'] / data['MA720']) * 100
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data['Deviation1440'] = (data['Close'] / data['MA1440']) * 100
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data['golden_cross'] = (data['MA5'] > data['MA20']) & (data['MA5'].shift(1) <= data['MA20'].shift(1))
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data['MA'] = data['Close'].rolling(window=20).mean()
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data['STD'] = data['Close'].rolling(window=20).std()
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data['Upper'] = data['MA'] + (2 * data['STD'])
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data['Lower'] = data['MA'] - (2 * data['STD'])
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return data
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# ------------- Strategy -------------
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def buy_ticker(self, symbol: str, data: pd.DataFrame) -> bool:
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try:
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current_time = datetime.now()
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if data['buy_signal'].iloc[-1] == 'fall_6p':
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if data['Close'].iloc[-1] > 100:
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buy_amount = 1000000
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else:
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buy_amount = 300000
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if symbol in self.buy_cooldown:
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time_diff = current_time - self.buy_cooldown[symbol]
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if time_diff.total_seconds() < 600:
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print(f"{symbol}: 매수 금지 중 (남은 시간: {600 - time_diff.total_seconds():.0f}초)")
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return False
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else:
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if symbol in self.buy_cooldown:
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time_diff = current_time - self.buy_cooldown[symbol]
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if time_diff.total_seconds() < 1200:
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print(f"{symbol}: 매수 금지 중 (남은 시간: {1200 - time_diff.total_seconds():.0f}초)")
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return False
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buy_amount = 5100
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if data['buy_signal'].iloc[-1] == 'movingaverage':
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buy_amount = 7000
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elif data['buy_signal'].iloc[-1] == 'deviation40':
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buy_amount = 10000
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elif data['buy_signal'].iloc[-1] == 'deviation240':
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buy_amount = 6000
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elif data['buy_signal'].iloc[-1] == 'deviation1440':
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if symbol in ['BONK', 'PEPE', 'TON']:
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buy_amount = 30000
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else:
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buy_amount = 50000
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_ = self.hts.buyCoinMarket(symbol, buy_amount)
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if self.cooldown_file is not None:
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self.buy_cooldown[symbol] = current_time
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self._save_buy_cooldown()
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print(f"{KR_COINS[symbol]} ({symbol}) [{data['buy_signal'].iloc[-1]}], 현재가: {data['Close'].iloc[-1]:.4f}, 20분간 매수 금지 시작")
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try:
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pool = Pool(12)
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pool.map(self._send_coin_msg, [
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"[KRW-COIN]" + "\n" + self.format_message('COIN', symbol, KR_COINS[symbol], data['Close'].iloc[-1], data['buy_signal'].iloc[-1])
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])
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except Exception as e:
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print(f"Error sending Telegram message: {str(e)}")
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except Exception as e:
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print(f"Error buying {symbol}: {str(e)}")
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return False
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return True
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def check_buy_point(self, symbol: str, data: pd.DataFrame, simulation: bool | None = None) -> pd.DataFrame:
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data = data.copy()
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data['buy_signal'] = ''
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data['buy_point'] = 0
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if data['buy_point'].iloc[-1] != 1:
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for i in range(1, len(data)):
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if all(data[f'MA{n}'].iloc[i] < data['MA720'].iloc[i] for n in [5, 20, 40, 120, 200, 240]) and \
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all(data[f'MA{n}'].iloc[i] > data[f'MA{n}'].iloc[i - 1] for n in [5, 20, 40, 120, 200, 240]) and \
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data['MA720'].iloc[i] < data['MA1440'].iloc[i]:
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data.at[data.index[i], 'buy_signal'] = 'movingaverage'
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data.at[data.index[i], 'buy_point'] = 1
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if not simulation and data['buy_point'][-3:].sum() > 0:
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data.at[data.index[-1], 'buy_signal'] = 'movingaverage'
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data.at[data.index[-1], 'buy_point'] = 1
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if data['Deviation40'].iloc[i - 1] < data['Deviation40'].iloc[i] and data['Deviation40'].iloc[i - 1] <= 90:
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data.at[data.index[i], 'buy_signal'] = 'deviation40'
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data.at[data.index[i], 'buy_point'] = 1
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if not simulation and data['buy_point'][-3:].sum() > 0:
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data.at[data.index[-1], 'buy_signal'] = 'deviation40'
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data.at[data.index[-1], 'buy_point'] = 1
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if symbol not in ['BONK']:
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if symbol in ['TRX']:
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if data['Deviation240'].iloc[i - 1] < data['Deviation240'].iloc[i] and data['Deviation240'].iloc[i - 1] <= 98:
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data.at[data.index[i], 'buy_signal'] = 'deviation240'
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data.at[data.index[i], 'buy_point'] = 1
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if not simulation and data['buy_point'][-3:].sum() > 0:
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data.at[data.index[-1], 'buy_signal'] = 'deviation240'
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data.at[data.index[-1], 'buy_point'] = 1
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else:
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if data['Deviation240'].iloc[i - 1] < data['Deviation240'].iloc[i] and data['Deviation240'].iloc[i - 1] <= 90:
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data.at[data.index[i], 'buy_signal'] = 'deviation240'
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data.at[data.index[i], 'buy_point'] = 1
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if not simulation and data['buy_point'][-3:].sum() > 0:
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data.at[data.index[-1], 'buy_signal'] = 'deviation240'
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data.at[data.index[-1], 'buy_point'] = 1
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if symbol in ['TON']:
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if data['Deviation1440'].iloc[i - 1] < data['Deviation1440'].iloc[i] and data['Deviation1440'].iloc[i - 1] <= 89:
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data.at[data.index[i], 'buy_signal'] = 'deviation1440'
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data.at[data.index[i], 'buy_point'] = 1
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if not simulation and data['buy_point'][-3:].sum() > 0:
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data.at[data.index[-1], 'buy_signal'] = 'deviation1440'
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data.at[data.index[-1], 'buy_point'] = 1
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elif symbol in ['XRP']:
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if data['Deviation1440'].iloc[i - 1] < data['Deviation1440'].iloc[i] and data['Deviation1440'].iloc[i - 1] <= 90:
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data.at[data.index[i], 'buy_signal'] = 'deviation1440'
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data.at[data.index[i], 'buy_point'] = 1
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if not simulation and data['buy_point'][-3:].sum() > 0:
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data.at[data.index[-1], 'buy_signal'] = 'deviation1440'
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data.at[data.index[-1], 'buy_point'] = 1
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elif symbol in ['BONK']:
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if data['Deviation1440'].iloc[i - 1] < data['Deviation1440'].iloc[i] and data['Deviation1440'].iloc[i - 1] <= 76:
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data.at[data.index[i], 'buy_signal'] = 'deviation1440'
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data.at[data.index[i], 'buy_point'] = 1
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if not simulation and data['buy_point'][-3:].sum() > 0:
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data.at[data.index[-1], 'buy_signal'] = 'deviation1440'
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data.at[data.index[-1], 'buy_point'] = 1
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else:
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if data['Deviation1440'].iloc[i - 1] < data['Deviation1440'].iloc[i] and data['Deviation1440'].iloc[i - 1] <= 80:
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data.at[data.index[i], 'buy_signal'] = 'deviation1440'
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data.at[data.index[i], 'buy_point'] = 1
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if not simulation and data['buy_point'][-3:].sum() > 0:
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data.at[data.index[-1], 'buy_signal'] = 'deviation1440'
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data.at[data.index[-1], 'buy_point'] = 1
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try:
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prev_low = data['Low'].iloc[i - 1]
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curr_close = data['Close'].iloc[i]
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cond_close_drop = curr_close <= prev_low * 0.94
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if cond_close_drop:
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data.at[data.index[i], 'buy_signal'] = 'fall_6p'
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data.at[data.index[i], 'buy_point'] = 1
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if not simulation and data['buy_point'][-3:].sum() > 0:
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data.at[data.index[-1], 'buy_signal'] = 'fall_6p'
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data.at[data.index[-1], 'buy_point'] = 1
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except Exception:
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pass
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return data
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# ------------- Formatting -------------
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def format_message(self, market_type: str, symbol: str, symbol_name: str, close: float, buy_signal: str) -> str:
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message = f"매수 [{market_type}] {symbol_name} ({symbol}): {buy_signal} "
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message += f"현재가: {'$' if market_type == 'US' else '₩'}{close:.4f}, "
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return message
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def format_ma_message(self, info: dict, market_type: str) -> str:
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prefix = '상승 ' if info.get('alert') else ''
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message = prefix + f"[{market_type}] {info['name']} ({info['symbol']}) "
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message += f"현재가: {'$' if market_type == 'US' else '₩'}{info['price']:.4f} \n"
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return message
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# ------------- Data fetch -------------
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def get_coin_data(self, symbol: str, interval: int = 60, to: str | None = None, retries: int = 3) -> pd.DataFrame | None:
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for attempt in range(retries):
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try:
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if to is None:
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url = ("https://api.bithumb.com/v1/candles/minutes/{}?market=KRW-{}&count=200").format(interval, symbol)
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else:
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url = ("https://api.bithumb.com/v1/candles/minutes/{}?market=KRW-{}&count=200&to={}").format(interval, symbol, to)
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headers = {"accept": "application/json"}
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response = requests.get(url, headers=headers)
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json_data = json.loads(response.text)
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df_temp = pd.DataFrame(json_data)
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df_temp = df_temp.sort_index(ascending=False)
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if 'candle_date_time_kst' not in df_temp:
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return None
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data = pd.DataFrame()
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data['datetime'] = pd.to_datetime(df_temp['candle_date_time_kst'], format='%Y-%m-%dT%H:%M:%S')
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data['Open'] = df_temp['opening_price']
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data['Close'] = df_temp['trade_price']
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data['High'] = df_temp['high_price']
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data['Low'] = df_temp['low_price']
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data['Volume'] = df_temp['candle_acc_trade_volume']
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data = data.set_index('datetime')
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data = data.astype(float)
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data["datetime"] = data.index
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if not data.empty:
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return data
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print(f"No data received for {symbol}, attempt {attempt + 1}")
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time.sleep(0.5)
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except Exception as e:
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print(f"Attempt {attempt + 1} failed for {symbol}: {str(e)}")
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if attempt < retries - 1:
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time.sleep(5)
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continue
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return None
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def get_coin_more_data(self, symbol: str, interval: int, bong_count: int = 3000) -> pd.DataFrame:
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to = datetime.now()
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data: pd.DataFrame | None = None
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while data is None or len(data) < bong_count:
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if data is None:
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data = self.get_coin_data(symbol, interval, to.strftime("%Y-%m-%d %H:%M:%S"))
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else:
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previous_count = len(data)
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df = self.get_coin_data(symbol, interval, to.strftime("%Y-%m-%d %H:%M:%S"))
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data = pd.concat([data, df], ignore_index=True)
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if previous_count == len(data):
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break
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time.sleep(0.3)
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to = to - relativedelta(minutes=interval * 200)
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data = data.set_index('datetime')
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data = data.sort_index()
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data = data.drop_duplicates(keep='first')
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data["datetime"] = data.index
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return data
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def get_coin_saved_data(self, symbol: str, interval: int, data: pd.DataFrame) -> pd.DataFrame:
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conn = sqlite3.connect('coins.db')
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cursor = conn.cursor()
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for i in range(1, len(data)):
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cursor.execute(
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"SELECT * from " + symbol + " where CODE = ? and ymdhms = ? and interval = ?",
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(symbol, data['datetime'].iloc[-i].strftime('%Y-%m-%d %H:%M:%S'), interval),
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)
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arr = cursor.fetchone()
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if not arr:
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cursor.execute(
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"INSERT INTO " + symbol + " (interval, CODE, NAME, ymdhms, ymd, hms, close, open, high, low, volume) VALUES(?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)",
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(
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interval,
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symbol,
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KR_COINS[symbol],
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data['datetime'].iloc[-i].strftime('%Y-%m-%d %H:%M:%S'),
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data['datetime'].iloc[-i].strftime('%Y%m%d'),
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data['datetime'].iloc[-i].strftime('%H%M%S'),
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data['Close'].iloc[-i],
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data['Open'].iloc[-i],
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data['High'].iloc[-i],
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data['Low'].iloc[-i],
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data['Volume'].iloc[-i],
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),
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)
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else:
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break
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cursor.execute(
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"select * from (SELECT Open,Close,High,Low,Volume,ymdhms as datetime from "
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+ symbol
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+ " order by ymdhms desc limit 5000) subquery order by datetime"
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)
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result = cursor.fetchall()
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conn.commit()
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cursor.close()
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conn.close()
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df = pd.DataFrame(result)
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df.columns = ['Open', 'Close', 'High', 'Low', 'Volume', 'datetime']
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df = df.set_index('datetime')
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df = df.sort_index()
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df['datetime'] = df.index
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return df
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def get_coin_some_data(self, symbol: str, interval: int) -> pd.DataFrame:
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data = self.get_coin_data(symbol, interval)
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data_1 = self.get_coin_data(symbol, interval=1)
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data_1.at[data_1.index[-1], 'Volume'] = data_1['Volume'].iloc[-1] * 60
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saved_data = self.get_coin_saved_data(symbol, interval, data)
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data = pd.concat([data, saved_data, data_1.iloc[[-1]]], ignore_index=True)
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data['datetime'] = pd.to_datetime(data['datetime'], format='%Y-%m-%d %H:%M:%S')
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data = data.set_index('datetime')
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data = data.sort_index()
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data = data.drop_duplicates(keep='first')
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data["datetime"] = data.index
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return data
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def get_kr_stock_data(self, symbol: str, retries: int = 3) -> pd.DataFrame | None:
|
|
for attempt in range(retries):
|
|
try:
|
|
end = datetime.now()
|
|
start = end - timedelta(days=300)
|
|
data = fdr.DataReader(symbol, start.strftime('%Y-%m-%d'), end.strftime('%Y-%m-%d'))
|
|
if not data.empty:
|
|
data = data.rename(columns={
|
|
'Open': 'Open',
|
|
'High': 'High',
|
|
'Low': 'Low',
|
|
'Close': 'Close',
|
|
'Volume': 'Volume',
|
|
})
|
|
return data
|
|
print(f"No data received for {symbol}, attempt {attempt + 1}")
|
|
time.sleep(2)
|
|
except Exception as e:
|
|
print(f"Attempt {attempt + 1} failed for {symbol}: {str(e)}")
|
|
if attempt < retries - 1:
|
|
time.sleep(5)
|
|
continue
|
|
return None
|