ILSEON-RYU
c72046909b
이전: desktop 200 / mobile 53 (mobile 비율 = 53/200 ≈ 26.5%) 이후: desktop 53 / mobile 14 (= 53 × 26.5%, 동일 비율 유지) 요건: "모바일 토글 off 시 기존 mobile 캔들 수, mobile 토글 시 동일 비율로 추가 축소". 비율 보존하면서 전체 축소. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
1063 lines
52 KiB
Python
1063 lines
52 KiB
Python
import sys
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import os
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sys.stdout.reconfigure(line_buffering=True, encoding="utf-8")
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sys.stderr.reconfigure(line_buffering=True, encoding="utf-8")
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os.environ["PYTHONUNBUFFERED"] = "1"
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os.environ["PYTHONIOENCODING"] = "utf-8"
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import time
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import requests
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from dotenv import load_dotenv
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load_dotenv()
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import pandas as pd
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import numpy as np
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from datetime import datetime, timezone, timedelta
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import threading
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import streamlit as st
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import plotly.graph_objects as go
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from plotly.subplots import make_subplots
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import ta
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import urllib3
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urllib3.disable_warnings(urllib3.exceptions.InsecureRequestWarning)
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# ──────────────────────────────────────────────
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# 페이지 설정 (반드시 최상단)
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# ──────────────────────────────────────────────
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st.set_page_config(
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page_title="BTC/ETH Futures Dashboard",
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layout="wide",
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initial_sidebar_state="collapsed"
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)
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# 라이트모드 강제 CSS
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st.markdown("""
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<style>
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html, body, [data-testid="stAppViewContainer"], [data-testid="stHeader"] {
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background-color: #ffffff !important;
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color: #131722 !important;
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}
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[data-testid="stSidebar"] { background-color: #f0f3fa !important; }
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.stSelectbox > div > div { background-color: #ffffff !important; color: #131722 !important; }
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.stButton > button { background-color: #238636 !important; color: #ffffff !important; border: none !important; }
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header { background-color: #f0f0f0 !important; }
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</style>
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""", unsafe_allow_html=True)
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# ──────────────────────────────────────────────
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# 설정
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# ──────────────────────────────────────────────
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TELEGRAM_TOKEN = os.getenv("TELEGRAM_TOKEN", "")
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TELEGRAM_CHAT_ID = os.getenv("TELEGRAM_CHAT_ID", "")
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ALERT_COOLDOWN = 600
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BASE = "https://fapi.binance.com"
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KST = timedelta(hours=9)
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STOP_LOSS_PCT = 0.0075 # 10x 레버리지 기준 ROI -7.5% (= 가격 0.75% 역방향)
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LONG_SIGNALS = {"strong_long_signal", "long_signal", "vol_long_signal", "reversal_long_signal"}
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SHORT_SIGNALS = {"strong_short_signal", "short_signal", "vol_short_signal", "reversal_short_signal"}
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TF_LABEL_MAP = {
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"1m": "1분봉", "3m": "3분봉", "5m": "5분봉",
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"15m": "15분봉", "30m": "30분봉",
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"1h": "1시간봉", "4h": "4시간봉", "12h": "12시간봉",
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"1d": "1일봉", "3d": "3일봉", "1M": "1개월봉",
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}
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# Streamlit 은 매 rerun 마다 메인 스크립트를 새 namespace 에서 재실행해
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# globals() 가드도 우회된다. 알림 mutable 상태는 별도 모듈에 두어 sys.modules
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# 캐싱으로 process lifetime 보존되도록 한다 (alert_state.py 참조).
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import alert_state
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# ──────────────────────────────────────────────
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# 텔레그램
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# ──────────────────────────────────────────────
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def send_telegram(message: str):
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try:
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url = f"https://api.telegram.org/bot{TELEGRAM_TOKEN}/sendMessage"
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requests.post(url, data={"chat_id": TELEGRAM_CHAT_ID, "text": message}, timeout=10)
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except Exception as e:
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print(f"[텔레그램 오류] {e}")
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SIG_DEFS = [
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("strong_long_signal", "strong_long", "🟢 강한 롱", "long"),
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("strong_short_signal", "strong_short", "🔴 강한 숏", "short"),
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("long_signal", "long", "🔼 일반 롱", "long"),
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("short_signal", "short", "🔽 일반 숏", "short"),
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("vol_long_signal", "vol_long", "🔼 볼륨 롱", "long"),
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("vol_short_signal", "vol_short", "🔽 볼륨 숏", "short"),
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("reversal_long_signal", "rev_long", "🔄 롱 추세 꺾임 감지", "long"),
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("reversal_short_signal","rev_short", "🔄 숏 추세 꺾임 감지", "short"),
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("short_caution_signal", "short_caution","⚠️ 숏 주의", "caution"),
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]
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def check_and_alert(df, symbol, interval):
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now = time.time()
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if df is None or df.empty:
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return
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forming_ct = df.iloc[-1]["open_time"]
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# Phase 1 — pending_groups 검증. forming candle 이라도 매 polling 마다 신호
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# 상태 확인. 사라지면 즉시 [취소 알림] (캔들 마감까지 기다리지 않음).
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new_pending = []
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for p in alert_state.pending_groups:
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if p["interval"] != interval:
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new_pending.append(p)
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continue
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ct = p["candle_time"]
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row_match = df[df["open_time"] == ct]
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if row_match.empty:
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continue # 캔들이 df 윈도우 밖 — 검증 포기, drop
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row = row_match.iloc[0]
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any_still_true = any(bool(row.get(s, False)) for s in p["sig_cols"])
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if any_still_true:
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if ct == forming_ct:
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# forming 중 + 신호 살아있음 → 계속 감시
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new_pending.append(p)
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# closed + 신호 살아있음 → 확정, pending 에서 제거
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else:
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# 신호 사라짐 (forming/closed 무관) → 즉시 취소 알림
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send_telegram(f"[취소 알림]\n{p['msg']}")
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le = alert_state.long_entry.get(interval)
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se = alert_state.short_entry.get(interval)
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if p["direction"] == "long" and le is not None and le.get("open_time") == ct:
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alert_state.long_entry[interval] = None
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elif p["direction"] == "short" and se is not None and se.get("open_time") == ct:
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alert_state.short_entry[interval] = None
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alert_state.pending_groups = new_pending
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# Phase 2 — 신호 검사 + 알림 발사 (모든 TF forming candle 포함).
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# 30초 polling 으로 매 사이클마다 forming candle 의 신호 상태 재검증 →
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# 신호 사라지면 즉시 [취소 알림] 발사 (Phase 1 로직). 5m=2.5m, 15m=7.5m,
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# 30m=15m, 1h=30m 의 절반 시간보다 훨씬 빠른 검증 주기.
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recent = df.tail(3)
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eligible = []
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for sig, key, sub_label, direction in SIG_DEFS:
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if sig not in recent.columns:
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continue
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triggered = recent[recent[sig].fillna(False)]
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if triggered.empty:
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continue
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candle_time = triggered.iloc[-1]["open_time"]
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state_key = (interval, key)
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if candle_time == alert_state.last_fired_candle.get(state_key):
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continue
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if now - alert_state.last_alert.get(state_key, 0) <= ALERT_COOLDOWN:
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continue
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eligible.append({
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"sig": sig, "key": key, "sub_label": sub_label,
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"direction": direction, "candle_time": candle_time, "row": triggered.iloc[-1],
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})
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if not eligible:
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groups = {}
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else:
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groups = {"long": [], "short": [], "caution": []}
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for e in eligible:
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groups[e["direction"]].append(e)
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tf_label = TF_LABEL_MAP.get(interval, interval)
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def _send_group(group):
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if not group:
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return
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candle_time = group[0]["candle_time"]
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candle_time_str = pd.Timestamp(candle_time).strftime("%Y-%m-%d %H:%M")
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sub_labels = " + ".join(e["sub_label"] for e in group)
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direction = group[0]["direction"]
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if direction == "caution":
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msg = (
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f"{sub_labels} 신호\n{symbol} {tf_label}\n"
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f"시간: {candle_time_str}"
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)
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send_telegram(msg)
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else:
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entry_price = float(group[0]["row"]["open"])
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if direction == "long":
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stop_price = entry_price * (1 - STOP_LOSS_PCT)
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else:
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stop_price = entry_price * (1 + STOP_LOSS_PCT)
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msg = (
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f"{sub_labels} 진입 신호\n{symbol} {tf_label}\n"
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f"시간: {candle_time_str}\n"
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f"진입가: {entry_price:,.2f}\n"
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f"손절가: {stop_price:,.2f}"
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)
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entry_record = {"price": entry_price, "stop": stop_price, "open_time": candle_time, "entry_msg": msg}
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# 청산 권고는 30m / 1h 의 새 진입 신호만 트리거 (5m / 15m opposite
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# 은 노이즈가 많아 청산권고로 부적합 — 변동성 큰 날 폭주 방지).
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if interval in ("30m", "1h"):
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opposite_dict = alert_state.short_entry if direction == "long" else alert_state.long_entry
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opposite_label = "숏" if direction == "long" else "롱"
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for opp_interval, opp_rec in list(opposite_dict.items()):
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if opp_rec is None:
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continue
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send_telegram(
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f"[반대 신호 감지 - {opposite_label} 청산 권장]\n"
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f"--- 기존 진입 ---\n{opp_rec['entry_msg']}\n"
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f"--- 반대 신호 ---\n{msg}"
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)
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opposite_dict[opp_interval] = None
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if direction == "long":
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alert_state.long_entry[interval] = entry_record
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else:
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alert_state.short_entry[interval] = entry_record
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send_telegram(msg)
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for e in group:
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alert_state.last_alert[(interval, e["key"])] = now
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alert_state.last_fired_candle[(interval, e["key"])] = e["candle_time"]
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if candle_time == forming_ct:
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alert_state.pending_groups.append({
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"interval": interval,
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"direction": direction,
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"candle_time": candle_time,
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"msg": msg,
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"sig_cols": [e["sig"] for e in group],
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})
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_send_group(groups.get("long", []))
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_send_group(groups.get("short", []))
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_send_group(groups.get("caution", []))
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current_price = float(df.iloc[-1]["close"])
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le = alert_state.long_entry.get(interval)
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se = alert_state.short_entry.get(interval)
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if le is not None and current_price <= le["stop"]:
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send_telegram(
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f"[손절가알림]\n{le['entry_msg']}\n"
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f"현재가: {current_price:,.2f}"
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)
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alert_state.long_entry[interval] = None
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if se is not None and current_price >= se["stop"]:
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send_telegram(
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f"[손절가알림]\n{se['entry_msg']}\n"
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f"현재가: {current_price:,.2f}"
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)
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alert_state.short_entry[interval] = None
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# ──────────────────────────────────────────────
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# 데이터 수집
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# ──────────────────────────────────────────────
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def get_klines(symbol="BTCUSDT", interval="5m", limit=375):
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url = f"{BASE}/fapi/v1/klines"
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r = requests.get(url, params={"symbol": symbol, "interval": interval, "limit": limit}, timeout=10, verify=False)
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df = pd.DataFrame(r.json(), columns=[
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"open_time","open","high","low","close","volume",
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"close_time","quote_vol","trades","taker_buy_vol","taker_sell_vol","ignore"
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])
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for c in ["open","high","low","close","volume","taker_buy_vol","taker_sell_vol"]:
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df[c] = df[c].astype(float)
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df["taker_sell_vol"] = df["volume"] - df["taker_buy_vol"]
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df["open_time"] = pd.to_datetime(df["open_time"], unit="ms") + KST
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return df
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def get_funding_rate(symbol="BTCUSDT", limit=100):
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url = f"{BASE}/fapi/v1/fundingRate"
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r = requests.get(url, params={"symbol": symbol, "limit": limit}, timeout=10, verify=False)
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df = pd.DataFrame(r.json())
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df["fundingRate"] = df["fundingRate"].astype(float) * 100
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df["fundingTime"] = pd.to_datetime(df["fundingTime"], unit="ms") + KST
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return df
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def get_open_interest_history(symbol="BTCUSDT", period="5m", limit=100):
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url = f"{BASE}/futures/data/openInterestHist"
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r = requests.get(url, params={"symbol": symbol, "period": period, "limit": limit}, timeout=10, verify=False)
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df = pd.DataFrame(r.json())
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df["sumOpenInterest"] = df["sumOpenInterest"].astype(float)
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df["timestamp"] = pd.to_datetime(df["timestamp"], unit="ms") + KST
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return df
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def get_long_short_ratio(symbol="BTCUSDT", period="5m", limit=500):
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url = f"{BASE}/futures/data/topLongShortPositionRatio"
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r = requests.get(url, params={"symbol": symbol, "period": period, "limit": limit}, timeout=10, verify=False)
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df = pd.DataFrame(r.json())
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df["longShortRatio"] = df["longShortRatio"].astype(float)
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df["timestamp"] = pd.to_datetime(df["timestamp"], unit="ms") + KST
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return df
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def get_taker_buy_sell_ratio(symbol="BTCUSDT", period="5m", limit=100):
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url = f"{BASE}/futures/data/takerlongshortRatio"
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r = requests.get(url, params={"symbol": symbol, "period": period, "limit": limit}, timeout=10, verify=False)
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df = pd.DataFrame(r.json())
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df["buySellRatio"] = df["buySellRatio"].astype(float)
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df["timestamp"] = pd.to_datetime(df["timestamp"], unit="ms") + KST
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return df
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# ──────────────────────────────────────────────
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# 지표 계산
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# ──────────────────────────────────────────────
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def compute_indicators(df, interval="5m"):
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c = df["close"]
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df["MA7"] = c.rolling(7).mean()
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df["MA25"] = c.rolling(25).mean()
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df["MA99"] = c.rolling(99).mean()
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df["MA200"] = c.rolling(200).mean()
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df["BB_mid"] = c.rolling(20).mean()
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df["BB_std"] = c.rolling(20).std()
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df["BB_upper"] = df["BB_mid"] + 2 * df["BB_std"]
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df["BB_lower"] = df["BB_mid"] - 2 * df["BB_std"]
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df["RSI"] = ta.momentum.RSIIndicator(c, window=14).rsi()
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macd = ta.trend.MACD(c, window_slow=26, window_fast=12, window_sign=9)
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df["MACD"] = macd.macd()
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df["MACD_signal"] = macd.macd_signal()
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df["MACD_hist"] = macd.macd_diff()
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stoch = ta.momentum.StochRSIIndicator(c, window=14, smooth1=3, smooth2=3)
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df["StochRSI_k"] = stoch.stochrsi_k() * 100
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df["StochRSI_d"] = stoch.stochrsi_d() * 100
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df["ATR"] = ta.volatility.AverageTrueRange(df["high"], df["low"], df["close"], window=14).average_true_range()
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df = compute_signals(df, interval)
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return df
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def compute_signals(df, interval="5m"):
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# close 가 MA7, MA25 양쪽 위/아래에 있는 것 만 요구. MA끼리 정렬 (MA7>MA25)은
|
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# 추세 반전 직후엔 늦게 형성되어 양봉/음봉 신호를 차단하는 부작용 있어 제거.
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df["bull_ma_2"] = (
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(df["close"] > df["MA7"]) & (df["close"] > df["MA25"])
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)
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df["bear_ma_2"] = (
|
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(df["close"] < df["MA7"]) & (df["close"] < df["MA25"])
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)
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df["bull_ma"] = (
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(df["close"] > df["MA7"]) & (df["MA7"] > df["MA25"])
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)
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df["bear_ma"] = (
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(df["close"] < df["MA7"]) & (df["MA7"] < df["MA25"])
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)
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# BB position 보존 (디버그 / 차트 hover 용도) — 신호 정의에는 미사용.
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bb_range = (df["BB_upper"] - df["BB_lower"]).replace(0, float("nan"))
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df["bb_pos"] = (df["close"] - df["BB_lower"]) / bb_range
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# 현재 캔들 자체의 방향이 신호 방향과 일치해야 발사.
|
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# 늦은 진입 (반등 중인 녹색 캔들에 short 등) 차단 + 현재 진행 중인 breakdown
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# (빨간 거대 캔들에 short) 은 통과 시킴.
|
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# BB 상/하단 차단 제거 + RSI 임계 완화 (60→75 / 35→25). 캔들 body 최소 0.2%
|
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# 요구해 작은 노이즈 캔들 차단 (close vs open 만으로는 -0.1% 같은 미미한 음봉도
|
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# 신호로 잡히던 문제 해결).
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body_pct = (df["close"] - df["open"]) / df["open"].replace(0, float("nan"))
|
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df["long_signal"] = df["bull_ma_2"] & (df["RSI"] < 75) & (df["MACD_hist"] > df["MACD_hist"].shift(1)) & (df["close"] > df["BB_mid"]) & (body_pct >= 0.002)
|
||
df["short_signal"] = df["bear_ma_2"] & (df["RSI"] > 25) & (df["MACD_hist"] < df["MACD_hist"].shift(1)) & (df["close"] < df["BB_mid"]) & (body_pct <= -0.002)
|
||
df["long_signal"] = df["long_signal"] & (df["long_signal"].rolling(5, min_periods=1).sum().shift(1).fillna(0) == 0)
|
||
df["short_signal"] = df["short_signal"] & (df["short_signal"].rolling(5, min_periods=1).sum().shift(1).fillna(0) == 0)
|
||
|
||
if "sumOpenInterest" in df.columns and df["sumOpenInterest"].notna().sum() > 5:
|
||
oi_series = df["sumOpenInterest"].ffill()
|
||
else:
|
||
oi_series = df["close"] * df["volume"]
|
||
df["oi_up"] = oi_series > oi_series.shift(1)
|
||
df["oi_down"] = oi_series < oi_series.shift(1)
|
||
df["oi_up_2"] = df["oi_up"] & df["oi_up"].shift(1).fillna(False)
|
||
df["oi_down_2"] = df["oi_down"] & df["oi_down"].shift(1).fillna(False)
|
||
# OI 활성도: 방향 무관, 의미 있는 변동만 통과 (0.1% 이상). 신규 진입과
|
||
# 청산 모두 캡처하기 위함. vol_short / vol_long 신호의 OI 필터로 사용.
|
||
df["oi_active"] = oi_series.pct_change().abs() > 0.001
|
||
|
||
df["taker_buy_dom"] = df["taker_buy_vol"] > df["taker_sell_vol"]
|
||
df["taker_sell_dom"] = df["taker_sell_vol"] > df["taker_buy_vol"]
|
||
df["taker_buy_2"] = df["taker_buy_dom"] & df["taker_buy_dom"].shift(1).fillna(False)
|
||
df["taker_sell_2"] = df["taker_sell_dom"] & df["taker_sell_dom"].shift(1).fillna(False)
|
||
|
||
df["fr_long_favor"] = df["taker_buy_vol"].rolling(3).mean() > df["taker_sell_vol"].rolling(3).mean()
|
||
df["fr_short_favor"] = df["taker_sell_vol"].rolling(3).mean() > df["taker_buy_vol"].rolling(3).mean()
|
||
|
||
df["strong_long_signal"] = df["bull_ma_2"] & (df["RSI"] < 65) & (df["MACD_hist"] > df["MACD_hist"].shift(1)) & df["oi_up_2"] & df["taker_buy_2"] & df["fr_long_favor"] & (df["close"] > df["open"])
|
||
df["strong_short_signal"] = df["bear_ma_2"] & (df["RSI"] > 35) & (df["MACD_hist"] < df["MACD_hist"].shift(1)) & df["oi_down_2"] & df["taker_sell_2"] & df["fr_short_favor"] & (df["close"] < df["open"])
|
||
df["strong_long_signal"] = df["strong_long_signal"] & (df["strong_long_signal"].rolling(10, min_periods=1).sum().shift(1).fillna(0) == 0)
|
||
df["strong_short_signal"] = df["strong_short_signal"] & (df["strong_short_signal"].rolling(10, min_periods=1).sum().shift(1).fillna(0) == 0)
|
||
|
||
vol_avg = df["volume"].rolling(10).mean()
|
||
spike = df["volume"] > vol_avg * 3
|
||
buy_spike = spike & (df["taker_buy_vol"] > df["taker_sell_vol"])
|
||
sell_spike = spike & (df["taker_sell_vol"] > df["taker_buy_vol"])
|
||
df["exhaustion_short"] = buy_spike.shift(1).fillna(False)
|
||
df["exhaustion_long"] = sell_spike.shift(1).fillna(False)
|
||
|
||
_vol_min_map = {"1m": 33, "3m": 100, "5m": 100, "15m": 300, "30m": 600, "1h": 1200, "2h": 2400, "4h": 4800, "12h": 14400, "1d": 28800, "3d": 86400, "1M": 864000}
|
||
_vol_min = _vol_min_map.get(interval, 100)
|
||
|
||
df["sell_net"] = df["taker_sell_vol"] - df["taker_buy_vol"]
|
||
sell_net_avg = df["sell_net"].rolling(10).mean()
|
||
sell_spike_strong = (
|
||
(df["sell_net"] > sell_net_avg * 2) &
|
||
(df["sell_net"] > 0) &
|
||
(df["taker_sell_vol"] > _vol_min) &
|
||
df["oi_active"]
|
||
)
|
||
cooldown_vol_short = sell_spike_strong.rolling(10, min_periods=1).sum().shift(1).fillna(0) == 0
|
||
df["vol_short_signal"] = sell_spike_strong & cooldown_vol_short
|
||
|
||
df["buy_net"] = df["taker_buy_vol"] - df["taker_sell_vol"]
|
||
buy_net_avg = df["buy_net"].rolling(10).mean()
|
||
buy_spike_strong = (
|
||
(df["buy_net"] > buy_net_avg * 2) &
|
||
(df["buy_net"] > 0) &
|
||
(df["taker_buy_vol"] > _vol_min) &
|
||
df["oi_active"]
|
||
)
|
||
cooldown_vol_long = buy_spike_strong.rolling(10, min_periods=1).sum().shift(1).fillna(0) == 0
|
||
df["vol_long_signal"] = buy_spike_strong & cooldown_vol_long
|
||
|
||
if "fundingRate" in df.columns and "sumOpenInterest" in df.columns:
|
||
fr_extreme = df["fundingRate"] <= -0.007
|
||
raw_signal = df["oi_down_2"] & fr_extreme
|
||
cooldown_mask = raw_signal.rolling(5, min_periods=1).sum().shift(1).fillna(0) == 0
|
||
df["short_caution_signal"] = raw_signal & cooldown_mask
|
||
else:
|
||
df["short_caution_signal"] = False
|
||
|
||
# 추세 꺾임 감지: 직전 3봉의 추세 방향과 현재 캔들 방향이 반대 + 강한 폭 + 거래량 동반.
|
||
# - 추세 판단: close[t-1] vs close[t-3] (현재 캔들 제외, 직전까지의 흐름)
|
||
# - 현재 캔들 강도: |close-open|/open >= 0.3% (작은 캔들 노이즈 차단)
|
||
# - 거래량: 직전 3봉 평균의 1.3배 이상 (확신)
|
||
# - 쿨다운: 3봉
|
||
prior_close = df["close"].shift(1)
|
||
prior_close_3 = df["close"].shift(3)
|
||
was_up = prior_close > prior_close_3
|
||
was_down = prior_close < prior_close_3
|
||
candle_body_pct = (df["close"] - df["open"]) / df["open"].replace(0, float("nan"))
|
||
vol_avg3 = df["volume"].rolling(3).mean().shift(1)
|
||
vol_strong = df["volume"] > vol_avg3 * 1.3
|
||
rev_short_raw = was_up & (candle_body_pct < -0.003) & vol_strong
|
||
rev_long_raw = was_down & (candle_body_pct > 0.003) & vol_strong
|
||
df["reversal_short_signal"] = rev_short_raw & (rev_short_raw.rolling(3, min_periods=1).sum().shift(1).fillna(0) == 0)
|
||
df["reversal_long_signal"] = rev_long_raw & (rev_long_raw.rolling(3, min_periods=1).sum().shift(1).fillna(0) == 0)
|
||
|
||
return df
|
||
|
||
# ──────────────────────────────────────────────
|
||
# 차트 빌드
|
||
# ──────────────────────────────────────────────
|
||
COLORS = {
|
||
"bg": "#ffffff",
|
||
"grid": "#e0e3eb",
|
||
"text": "#131722",
|
||
"green": "#26a69a",
|
||
"red": "#ef5350",
|
||
"yellow":"#f5ce05",
|
||
"blue": "#2962ff",
|
||
"purple":"#9c27b0",
|
||
"orange":"#ff9800",
|
||
"MA7": "#f5ce05",
|
||
"MA25": "#ef5350",
|
||
"MA99": "#9c27b0",
|
||
"MA200": "#2962ff",
|
||
"BB": "rgba(41,98,255,0.1)",
|
||
}
|
||
|
||
def _to_floor_freq(period):
|
||
return {"1m":"1min","3m":"3min","5m":"5min","15m":"15min","30m":"30min","1h":"1h","4h":"4h","12h":"12h","1d":"1D","3d":"3D","1M":"1ME"}.get(period, period)
|
||
|
||
def build_chart(symbol, interval, candle_limit=200):
|
||
df = get_klines(symbol, interval, candle_limit)
|
||
oi_period = interval if interval in ["5m","15m","30m","1h","4h","12h","1d","3d","1M"] else "5m"
|
||
|
||
try:
|
||
oi = get_open_interest_history(symbol, oi_period, 200)
|
||
if not oi.empty:
|
||
oi_m = oi[["timestamp","sumOpenInterest"]].rename(columns={"timestamp":"open_time"})
|
||
df["open_time_r"] = df["open_time"].dt.floor(_to_floor_freq(oi_period))
|
||
oi_m["open_time"] = oi_m["open_time"].dt.floor(_to_floor_freq(oi_period))
|
||
df = df.merge(oi_m, left_on="open_time_r", right_on="open_time", how="left", suffixes=("","_oi"))
|
||
df = df.drop(columns=["open_time_r","open_time_oi"], errors="ignore")
|
||
df["sumOpenInterest"] = df["sumOpenInterest"].ffill()
|
||
except: pass
|
||
|
||
try:
|
||
fr = get_funding_rate(symbol, 200)
|
||
if not fr.empty:
|
||
fr_m = fr[["fundingTime","fundingRate"]].rename(columns={"fundingTime":"open_time"})
|
||
fr_m["open_time"] = fr_m["open_time"].dt.floor(_to_floor_freq("1h"))
|
||
df["open_time_r2"] = df["open_time"].dt.floor(_to_floor_freq("1h"))
|
||
df = df.merge(fr_m, left_on="open_time_r2", right_on="open_time", how="left", suffixes=("","_fr"))
|
||
df = df.drop(columns=["open_time_r2","open_time_fr"], errors="ignore")
|
||
df["fundingRate"] = df["fundingRate"].ffill().fillna(0)
|
||
except: pass
|
||
|
||
try:
|
||
ls = get_long_short_ratio(symbol, oi_period, 200)
|
||
if not ls.empty:
|
||
ls_m = ls[["timestamp","longShortRatio"]].rename(columns={"timestamp":"open_time"})
|
||
df["open_time_r3"] = df["open_time"].dt.floor(_to_floor_freq(oi_period))
|
||
ls_m["open_time"] = ls_m["open_time"].dt.floor(_to_floor_freq(oi_period))
|
||
df = df.merge(ls_m, left_on="open_time_r3", right_on="open_time", how="left", suffixes=("","_ls"))
|
||
df = df.drop(columns=["open_time_r3","open_time_ls"], errors="ignore")
|
||
df["longShortRatio"] = df["longShortRatio"].ffill()
|
||
except: pass
|
||
|
||
df = compute_indicators(df, interval)
|
||
|
||
try:
|
||
if interval != "1h":
|
||
df_1h = get_klines(symbol, "1h", 150)
|
||
df_1h["MA7"] = df_1h["close"].rolling(7).mean()
|
||
df_1h["MA25"] = df_1h["close"].rolling(25).mean()
|
||
df_1h["MA99"] = df_1h["close"].rolling(99).mean()
|
||
df_1h["MA200"] = df_1h["close"].rolling(200).mean()
|
||
df_1h["h1_bull_2"] = (
|
||
(df_1h["close"] > df_1h["MA7"]) & (df_1h["MA7"] > df_1h["MA25"])
|
||
)
|
||
df_1h["h1_bear_2"] = (
|
||
(df_1h["close"] < df_1h["MA7"]) & (df_1h["MA7"] < df_1h["MA25"])
|
||
)
|
||
df_1h["h1_bull"] = (
|
||
(df_1h["close"] > df_1h["MA7"]) &
|
||
(df_1h["MA7"] > df_1h["MA25"]) &
|
||
(df_1h["MA25"] > df_1h["MA99"])
|
||
)
|
||
df_1h["h1_bear"] = (
|
||
(df_1h["close"] < df_1h["MA7"]) &
|
||
(df_1h["MA7"] < df_1h["MA25"]) &
|
||
(df_1h["MA25"] < df_1h["MA99"])
|
||
)
|
||
df_1h_m = df_1h[["open_time","h1_bull","h1_bear","h1_bull_2","h1_bear_2"]].copy()
|
||
df["open_time_1h"] = df["open_time"].dt.floor("1h")
|
||
df_1h_m["open_time"] = df_1h_m["open_time"].dt.floor("1h")
|
||
df = df.merge(df_1h_m, left_on="open_time_1h", right_on="open_time",
|
||
how="left", suffixes=("","_1h"))
|
||
df = df.drop(columns=["open_time_1h","open_time_1h_x","open_time_1h_y"], errors="ignore")
|
||
df["_date"] = df["open_time"].dt.date
|
||
for col in ["h1_bull","h1_bear","h1_bull_2","h1_bear_2"]:
|
||
df[col] = df.groupby("_date")[col].transform(lambda x: x.ffill())
|
||
df.drop(columns=["_date"], inplace=True)
|
||
df["h1_bull"] = df["h1_bull"].fillna(False)
|
||
df["h1_bear"] = df["h1_bear"].fillna(False)
|
||
df["h1_bull_2"] = df["h1_bull_2"].fillna(False)
|
||
df["h1_bear_2"] = df["h1_bear_2"].fillna(False)
|
||
else:
|
||
df["h1_bull"] = df["bull_ma"]
|
||
df["h1_bear"] = df["bear_ma"]
|
||
df["h1_bull_2"] = df["bull_ma_2"]
|
||
df["h1_bear_2"] = df["bear_ma_2"]
|
||
except:
|
||
df["h1_bull"] = False
|
||
df["h1_bear"] = False
|
||
|
||
df["long_signal"] = df["long_signal"] & df["taker_buy_dom"]
|
||
df["short_signal"] = df["short_signal"] & df["taker_sell_dom"]
|
||
df["strong_long_signal"] = df["strong_long_signal"]
|
||
df["strong_short_signal"] = df["strong_short_signal"]
|
||
df["short_caution_signal"]= df["short_caution_signal"]
|
||
df["long_exhaustion_warn"] = False
|
||
|
||
t = df["open_time"]
|
||
|
||
fig = make_subplots(
|
||
rows=7, cols=1,
|
||
shared_xaxes=True,
|
||
row_heights=[0.38, 0.10, 0.10, 0.10, 0.10, 0.11, 0.11],
|
||
vertical_spacing=0.01,
|
||
subplot_titles=["", "Taker Buy/Sell Volume", "Open Interest",
|
||
"Funding Rate (%)", "Long/Short Ratio (탑트레이더)",
|
||
"RSI / StochRSI", "MACD"]
|
||
)
|
||
|
||
fig.add_trace(go.Candlestick(
|
||
x=t, open=df["open"], high=df["high"], low=df["low"], close=df["close"],
|
||
increasing_line_color=COLORS["green"], decreasing_line_color=COLORS["red"],
|
||
increasing_fillcolor=COLORS["green"], decreasing_fillcolor=COLORS["red"],
|
||
name="캔들", line=dict(width=1)
|
||
), row=1, col=1)
|
||
|
||
fig.add_trace(go.Scatter(x=t, y=df["BB_upper"], line=dict(color=COLORS["BB"].replace("0.1","0.6"), width=0.8), name="BB상단", showlegend=False), row=1, col=1)
|
||
fig.add_trace(go.Scatter(x=t, y=df["BB_lower"], line=dict(color=COLORS["BB"].replace("0.1","0.6"), width=0.8), fill="tonexty", fillcolor=COLORS["BB"], name="BB하단", showlegend=False), row=1, col=1)
|
||
|
||
for ma, col in [("MA200", COLORS["MA200"]), ("MA99", COLORS["MA99"]), ("MA25", COLORS["MA25"]), ("MA7", COLORS["MA7"])]:
|
||
fig.add_trace(go.Scatter(x=t, y=df[ma], line=dict(color=col, width=1.2), name=ma), row=1, col=1)
|
||
|
||
if "longShortRatio" in df.columns:
|
||
fig.add_trace(go.Scatter(x=t, y=df["longShortRatio"], line=dict(color=COLORS["orange"], width=1), name="탑트레이더 L/S"), row=1, col=1)
|
||
|
||
if "fundingRate" in df.columns:
|
||
fig.add_trace(go.Scatter(x=t, y=df["fundingRate"], line=dict(color=COLORS["purple"], width=1), name="Funding Rate"), row=1, col=1)
|
||
|
||
if "sumOpenInterest" in df.columns:
|
||
fig.add_trace(go.Scatter(x=t, y=df["sumOpenInterest"], line=dict(color=COLORS["blue"], width=1), name="OI"), row=1, col=1)
|
||
|
||
fig.add_trace(go.Scatter(x=t, y=df["taker_sell_vol"], mode="markers", marker=dict(color=COLORS["red"], size=3), name="Taker Sell"), row=1, col=1)
|
||
fig.add_trace(go.Scatter(x=t, y=df["taker_buy_vol"], mode="markers", marker=dict(color=COLORS["green"], size=3), name="Taker Buy"), row=1, col=1)
|
||
|
||
for mask, sym, color, sig_name in [
|
||
(df["exhaustion_short"], "star", COLORS["red"], "매수소진(숏)"),
|
||
(df["exhaustion_long"], "star", COLORS["green"], "매도소진(롱)"),
|
||
(df.get("long_exhaustion_warn", pd.Series([False]*len(df), index=df.index)), "x", COLORS["orange"], "롱소진경고(숏전환)"),
|
||
(df["strong_short_signal"],"triangle-down", COLORS["red"], "강한 숏 진입 신호"),
|
||
(df.get("vol_short_signal", pd.Series([False]*len(df), index=df.index)), "triangle-down", COLORS["orange"], "볼륨급등 숏 신호"),
|
||
(df.get("vol_long_signal", pd.Series([False]*len(df), index=df.index)), "triangle-up", "#00bfff", "볼륨급등 롱 신호"),
|
||
(df["strong_long_signal"], "triangle-up", COLORS["green"], "강한 롱 진입 신호"),
|
||
(df["short_signal"], "triangle-down", COLORS["orange"], "숏 진입 신호"),
|
||
(df["long_signal"], "triangle-up", COLORS["blue"], "롱 진입 신호"),
|
||
(df.get("short_caution_signal", pd.Series([False]*len(df), index=df.index)), "diamond", "#ff00ff", "숏 진입(주의)"),
|
||
]:
|
||
d = df[mask]
|
||
if not d.empty:
|
||
cd = list(zip(d["open_time"].dt.strftime("%m/%d %H:%M").tolist(), d["open"].tolist()))
|
||
_long_sigs = ["강한 롱 진입 신호", "볼륨급등 롱 신호", "롱 진입 신호", "매도소진(롱)"]
|
||
_short_sigs = ["강한 숏 진입 신호", "볼륨급등 숏 신호", "숏 진입 신호", "매수소진(숏)", "롱소진경고(숏전환)", "숏 진입(주의)"]
|
||
if sig_name in _long_sigs:
|
||
y_val = d["low"] * 0.9998
|
||
elif sig_name in _short_sigs:
|
||
y_val = d["high"] * 1.0002
|
||
else:
|
||
y_val = d["close"]
|
||
fig.add_trace(go.Scatter(
|
||
x=d["open_time"], y=y_val,
|
||
mode="markers", marker=dict(symbol=sym, color=color, size=10),
|
||
name=sig_name,
|
||
customdata=cd,
|
||
hovertemplate="<b>" + sig_name + "</b><br>신호: %{customdata[0]}<br>가격: %{customdata[1]:,.1f}<extra></extra>",
|
||
showlegend=True,
|
||
), row=1, col=1)
|
||
else:
|
||
fig.add_trace(go.Scatter(
|
||
x=[None], y=[None],
|
||
mode="markers", marker=dict(symbol=sym, color=color, size=10),
|
||
name=sig_name,
|
||
showlegend=True,
|
||
), row=1, col=1)
|
||
|
||
buy_vol = df["taker_buy_vol"] - df["taker_sell_vol"]
|
||
colors_v = [COLORS["green"] if v >= 0 else COLORS["red"] for v in buy_vol]
|
||
fig.add_trace(go.Bar(x=t, y=buy_vol, marker_color=colors_v, name="Taker Net"), row=2, col=1)
|
||
if "sumOpenInterest" not in df.columns:
|
||
df["spike_avg"] = df["volume"].rolling(10).mean()
|
||
fig.add_trace(go.Scatter(x=t, y=df["spike_avg"] * 3, line=dict(color=COLORS["yellow"], width=0.8, dash="dot"), name="스파이크 기준(3x)"), row=2, col=1)
|
||
|
||
if "sumOpenInterest" in df.columns:
|
||
fig.add_trace(go.Scatter(x=t, y=df["sumOpenInterest"], line=dict(color=COLORS["purple"], width=1.5), fill="tozeroy", fillcolor="rgba(156,39,176,0.15)", name="OI"), row=3, col=1)
|
||
|
||
if "fundingRate" in df.columns:
|
||
fr_colors = [COLORS["red"] if v < 0 else COLORS["green"] for v in df["fundingRate"]]
|
||
fig.add_trace(go.Bar(x=t, y=df["fundingRate"], marker_color=fr_colors, name="FR"), row=4, col=1)
|
||
fig.add_hline(y=0.005, line=dict(color=COLORS["orange"], width=1, dash="dash"), row=4, col=1)
|
||
fig.add_hline(y=-0.005, line=dict(color=COLORS["orange"], width=1, dash="dash"), row=4, col=1)
|
||
fig.add_hline(y=-0.007, line=dict(color=COLORS["red"], width=1, dash="dash"), row=4, col=1)
|
||
|
||
if "longShortRatio" in df.columns:
|
||
fig.add_trace(go.Scatter(x=t, y=df["longShortRatio"], line=dict(color=COLORS["orange"], width=1.5), name="탑트레이더 L/S"), row=5, col=1)
|
||
fig.add_hline(y=1.0, line=dict(color=COLORS["grid"], width=0.8, dash="dash"), row=5, col=1)
|
||
|
||
fig.add_trace(go.Scatter(x=t, y=df["RSI"], line=dict(color=COLORS["blue"], width=1.5), name="RSI(14)"), row=6, col=1)
|
||
fig.add_trace(go.Scatter(x=t, y=df["StochRSI_k"],line=dict(color=COLORS["red"], width=1.5), name="StochRSI K"), row=6, col=1)
|
||
fig.add_trace(go.Scatter(x=t, y=df["StochRSI_d"],line=dict(color=COLORS["orange"], width=1.0, dash="dot"), name="StochRSI D"), row=6, col=1)
|
||
for lvl in [20, 50, 80]:
|
||
fig.add_hline(y=lvl, line=dict(color=COLORS["grid"], width=0.6, dash="dash"), row=6, col=1)
|
||
|
||
hist_colors = [COLORS["green"] if v >= 0 else COLORS["red"] for v in df["MACD_hist"].fillna(0)]
|
||
fig.add_trace(go.Bar(x=t, y=df["MACD_hist"], marker_color=hist_colors, name="MACD Hist"), row=7, col=1)
|
||
fig.add_trace(go.Scatter(x=t, y=df["MACD"], line=dict(color=COLORS["blue"], width=1.2), name="MACD"), row=7, col=1)
|
||
fig.add_trace(go.Scatter(x=t, y=df["MACD_signal"], line=dict(color=COLORS["orange"], width=1.2), name="Signal"), row=7, col=1)
|
||
fig.add_hline(y=0, line=dict(color=COLORS["grid"], width=0.5), row=7, col=1)
|
||
|
||
last_price = df["close"].iloc[-1]
|
||
fig.add_hline(y=last_price, line=dict(color=COLORS["yellow"], width=1, dash="dash"), row=1, col=1)
|
||
fig.add_annotation(
|
||
x=df["open_time"].iloc[-1], y=last_price,
|
||
text=f"▶ {last_price:,.1f}",
|
||
showarrow=False,
|
||
font=dict(color=COLORS["yellow"], size=12),
|
||
xanchor="left", yanchor="middle",
|
||
bgcolor="rgba(245,206,5,0.15)",
|
||
bordercolor=COLORS["yellow"], borderwidth=1,
|
||
row=1, col=1
|
||
)
|
||
|
||
fig.update_layout(
|
||
height=1600,
|
||
paper_bgcolor="#ffffff",
|
||
plot_bgcolor="#ffffff",
|
||
font=dict(color=COLORS["text"], size=11, family="monospace"),
|
||
legend=dict(bgcolor="rgba(255,255,255,0.95)", bordercolor=COLORS["grid"], borderwidth=1,
|
||
orientation="h", x=0, y=1.02, yanchor="bottom", font=dict(size=10)),
|
||
xaxis_rangeslider_visible=False,
|
||
margin=dict(l=60, r=100, t=60, b=20),
|
||
hovermode="x unified",
|
||
dragmode="pan",
|
||
showlegend=False,
|
||
)
|
||
|
||
for i in range(1, 8):
|
||
fig.update_xaxes(showgrid=True, gridcolor=COLORS["grid"], zeroline=False, row=i, col=1,
|
||
showline=True, linecolor=COLORS["grid"])
|
||
fig.update_yaxes(showgrid=True, gridcolor=COLORS["grid"], zeroline=False, row=i, col=1,
|
||
showline=True, linecolor=COLORS["grid"])
|
||
|
||
def tight(series, pad=0.03):
|
||
s = series.dropna()
|
||
if s.empty: return None, None
|
||
lo, hi = s.min(), s.max()
|
||
margin = (hi - lo) * pad if (hi - lo) > 0 else abs(lo) * pad + 1
|
||
return lo - margin, hi + margin
|
||
|
||
lo, hi = tight(pd.concat([df["low"], df["high"]]), pad=0.02)
|
||
if lo: fig.update_yaxes(range=[lo, hi], row=1, col=1)
|
||
|
||
buy_vol = df["taker_buy_vol"] - df["taker_sell_vol"]
|
||
abs_max = buy_vol.abs().quantile(0.98) * 1.5
|
||
if abs_max > 0: fig.update_yaxes(range=[-abs_max, abs_max], row=2, col=1)
|
||
|
||
if "sumOpenInterest" in df.columns:
|
||
lo, hi = tight(df["sumOpenInterest"], pad=0.05)
|
||
if lo: fig.update_yaxes(range=[lo, hi], row=3, col=1)
|
||
|
||
if "fundingRate" in df.columns:
|
||
lo, hi = tight(df["fundingRate"], pad=0.2)
|
||
if lo: fig.update_yaxes(range=[lo, hi], row=4, col=1)
|
||
|
||
if "longShortRatio" in df.columns:
|
||
lo, hi = tight(df["longShortRatio"], pad=0.05)
|
||
if lo: fig.update_yaxes(range=[lo, hi], row=5, col=1)
|
||
|
||
fig.update_yaxes(range=[0, 100], row=6, col=1)
|
||
|
||
macd_all = pd.concat([df["MACD"], df["MACD_signal"], df["MACD_hist"]]).dropna()
|
||
lo, hi = tight(macd_all, pad=0.1)
|
||
if lo: fig.update_yaxes(range=[lo, hi], row=7, col=1)
|
||
|
||
return fig, df
|
||
|
||
# ──────────────────────────────────────────────
|
||
# 알림 스레드
|
||
# ──────────────────────────────────────────────
|
||
# 알림 스레드용 mutable state 는 alert_state 모듈에 보관 (위 import 참조).
|
||
|
||
def _build_signal_df(symbol, interval, klines_limit=200):
|
||
df = get_klines(symbol, interval, klines_limit)
|
||
oi_period = interval if interval in ["5m","15m","30m","1h","4h","12h","1d","3d","1M"] else "5m"
|
||
try:
|
||
oi = get_open_interest_history(symbol, oi_period, min(klines_limit, 500))
|
||
if not oi.empty:
|
||
oi_m = oi[["timestamp","sumOpenInterest"]].rename(columns={"timestamp":"open_time"})
|
||
df["open_time_r"] = df["open_time"].dt.floor(_to_floor_freq(oi_period))
|
||
oi_m["open_time"] = oi_m["open_time"].dt.floor(_to_floor_freq(oi_period))
|
||
df = df.merge(oi_m, left_on="open_time_r", right_on="open_time", how="left", suffixes=("","_oi"))
|
||
df = df.drop(columns=["open_time_r","open_time_oi"], errors="ignore")
|
||
df["sumOpenInterest"] = df["sumOpenInterest"].ffill()
|
||
except: pass
|
||
try:
|
||
fr = get_funding_rate(symbol, 200)
|
||
if not fr.empty:
|
||
fr_m = fr[["fundingTime","fundingRate"]].rename(columns={"fundingTime":"open_time"})
|
||
fr_m["open_time"] = fr_m["open_time"].dt.floor(_to_floor_freq("1h"))
|
||
df["open_time_r2"] = df["open_time"].dt.floor(_to_floor_freq("1h"))
|
||
df = df.merge(fr_m, left_on="open_time_r2", right_on="open_time", how="left", suffixes=("","_fr"))
|
||
df = df.drop(columns=["open_time_r2","open_time_fr"], errors="ignore")
|
||
df["fundingRate"] = df["fundingRate"].ffill().fillna(0)
|
||
except: pass
|
||
df = compute_indicators(df, interval)
|
||
return df
|
||
|
||
ALERT_TIMEFRAMES = ["5m", "15m", "30m", "1h"]
|
||
|
||
def _alert_loop():
|
||
while True:
|
||
with alert_state.alert_lock:
|
||
symbol = alert_state.alert_symbol
|
||
for interval in ALERT_TIMEFRAMES:
|
||
try:
|
||
df = _build_signal_df(symbol, interval, 200)
|
||
check_and_alert(df, symbol, interval)
|
||
except Exception as e:
|
||
print(f"[알림스레드 오류] {interval}: {e}")
|
||
time.sleep(30)
|
||
|
||
# ──────────────────────────────────────────────
|
||
# 일일 리포트 (자정 KST)
|
||
# ──────────────────────────────────────────────
|
||
DAILY_REPORT_TIMEFRAMES = ["5m", "15m", "30m", "1h", "4h"]
|
||
DAILY_REPORT_KLINES_LIMIT = {"5m": 500, "15m": 250, "30m": 200, "1h": 200, "4h": 200}
|
||
DAILY_REPORT_PAIRS = [
|
||
("strong_long_signal", "strong_short_signal"),
|
||
("long_signal", "short_signal"),
|
||
("vol_long_signal", "vol_short_signal"),
|
||
]
|
||
DAILY_REPORT_SIGNAL_LABELS = [
|
||
("strong_long_signal", "강한 롱"),
|
||
("strong_short_signal", "강한 숏"),
|
||
("long_signal", "일반 롱"),
|
||
("short_signal", "일반 숏"),
|
||
("vol_long_signal", "볼륨 롱"),
|
||
("vol_short_signal", "볼륨 숏"),
|
||
]
|
||
|
||
def _count_daily_signals_per_type(df, cutoff_kst, offset=1):
|
||
result = {sig: [0, 0] for sig, _ in DAILY_REPORT_SIGNAL_LABELS}
|
||
if df is None or df.empty or "open_time" not in df.columns:
|
||
return result
|
||
recent = df[df["open_time"] >= cutoff_kst].reset_index(drop=True)
|
||
if len(recent) <= offset:
|
||
return result
|
||
for long_sig, short_sig in DAILY_REPORT_PAIRS:
|
||
if long_sig not in recent.columns or short_sig not in recent.columns:
|
||
continue
|
||
for i in range(len(recent) - offset):
|
||
row = recent.iloc[i]
|
||
future = recent.iloc[i + offset]
|
||
if bool(row.get(long_sig, False)):
|
||
result[long_sig][0] += 1
|
||
if bool(future.get(short_sig, False)):
|
||
result[long_sig][1] += 1
|
||
if bool(row.get(short_sig, False)):
|
||
result[short_sig][0] += 1
|
||
if bool(future.get(long_sig, False)):
|
||
result[short_sig][1] += 1
|
||
return result
|
||
|
||
def _build_daily_report_lines(dfs, cutoff_kst, now_kst, symbol, offset, header_suffix):
|
||
lines = [
|
||
f"📊 24시간 신호 통계 ({symbol}) - {header_suffix}",
|
||
f"기준: {now_kst.strftime('%Y-%m-%d %H:%M')} KST",
|
||
]
|
||
for tf in DAILY_REPORT_TIMEFRAMES:
|
||
df = dfs.get(tf)
|
||
counts = _count_daily_signals_per_type(df, cutoff_kst, offset=offset)
|
||
lines.append("")
|
||
lines.append(f"[{TF_LABEL_MAP.get(tf, tf)}]")
|
||
total_all = 0
|
||
failed_all = 0
|
||
for sig, sig_label in DAILY_REPORT_SIGNAL_LABELS:
|
||
t, f = counts.get(sig, [0, 0])
|
||
passed = t - f
|
||
lines.append(f"{sig_label}: {passed}T {f}F")
|
||
total_all += t
|
||
failed_all += f
|
||
passed_all = total_all - failed_all
|
||
rate = (passed_all / total_all * 100) if total_all > 0 else 0.0
|
||
lines.append(f"합계: {passed_all}T {failed_all}F (승률 {rate:.2f}%)")
|
||
return "\n".join(lines)
|
||
|
||
def _count_stop_touches_per_type(df, cutoff_kst, lookahead=3):
|
||
"""
|
||
각 진입 신호 캔들 (1번째 캔들) 기준으로 그 후 lookahead 개 캔들 동안
|
||
(즉 1번째 캔들 시작가 ~ (lookahead+1) 번째 캔들 시작가 구간) 손절가를
|
||
터치했는지 카운트. 롱은 low <= stop, 숏은 high >= stop.
|
||
|
||
반환: {signal_name: [touch_count, total_count]}
|
||
"""
|
||
result = {sig: [0, 0] for sig, _ in DAILY_REPORT_SIGNAL_LABELS}
|
||
if df is None or df.empty or "open_time" not in df.columns:
|
||
return result
|
||
recent = df[df["open_time"] >= cutoff_kst].reset_index(drop=True)
|
||
if len(recent) <= lookahead:
|
||
return result
|
||
for sig, _ in DAILY_REPORT_SIGNAL_LABELS:
|
||
if sig not in recent.columns:
|
||
continue
|
||
if sig in LONG_SIGNALS:
|
||
direction = "long"
|
||
elif sig in SHORT_SIGNALS:
|
||
direction = "short"
|
||
else:
|
||
continue # short_caution_signal — 진입 신호 아님, 손절가 추적 X
|
||
for i in range(len(recent) - lookahead):
|
||
row = recent.iloc[i]
|
||
if not bool(row.get(sig, False)):
|
||
continue
|
||
entry = float(row["open"])
|
||
window = recent.iloc[i:i + lookahead]
|
||
result[sig][1] += 1
|
||
if direction == "long":
|
||
stop = entry * (1 - STOP_LOSS_PCT)
|
||
if float(window["low"].min()) <= stop:
|
||
result[sig][0] += 1
|
||
else:
|
||
stop = entry * (1 + STOP_LOSS_PCT)
|
||
if float(window["high"].max()) >= stop:
|
||
result[sig][0] += 1
|
||
return result
|
||
|
||
def _build_stop_touch_lines(dfs, cutoff_kst, now_kst, symbol):
|
||
lines = [
|
||
f"[손절가 터치 횟수 알림(시간봉 *3배기준)] ({symbol})",
|
||
f"기준: {now_kst.strftime('%Y-%m-%d %H:%M')} KST",
|
||
f"손절 비율: ±{STOP_LOSS_PCT*100:.2f}% (10x 레버리지 기준 ROI ±{STOP_LOSS_PCT*100*10:.1f}%)",
|
||
]
|
||
for tf in DAILY_REPORT_TIMEFRAMES:
|
||
df = dfs.get(tf)
|
||
counts = _count_stop_touches_per_type(df, cutoff_kst, lookahead=3)
|
||
lines.append("")
|
||
lines.append(f"[{TF_LABEL_MAP.get(tf, tf)}]")
|
||
touch_all = 0
|
||
total_all = 0
|
||
for sig, sig_label in DAILY_REPORT_SIGNAL_LABELS:
|
||
if sig == "short_caution_signal":
|
||
continue
|
||
touch, total = counts.get(sig, [0, 0])
|
||
lines.append(f"{sig_label}: {touch}/{total}")
|
||
touch_all += touch
|
||
total_all += total
|
||
rate = (touch_all / total_all * 100) if total_all > 0 else 0.0
|
||
lines.append(f"합계: {touch_all}/{total_all} (터치율 {rate:.2f}%)")
|
||
return "\n".join(lines)
|
||
|
||
def _count_reversal_outcomes(df, cutoff_kst, lookahead=3):
|
||
"""추세 꺾임 신호의 lookahead 봉 후 방향 일치 카운트.
|
||
- reversal_long: close[i+lookahead] > close[i] -> T (상승 지속)
|
||
- reversal_short: close[i+lookahead] < close[i] -> T (하락 지속)
|
||
반환: {sig_name: [total, failed]}
|
||
"""
|
||
result = {"reversal_long_signal": [0, 0], "reversal_short_signal": [0, 0]}
|
||
if df is None or df.empty or "open_time" not in df.columns:
|
||
return result
|
||
recent = df[df["open_time"] >= cutoff_kst].reset_index(drop=True)
|
||
if len(recent) <= lookahead:
|
||
return result
|
||
for sig in ("reversal_long_signal", "reversal_short_signal"):
|
||
if sig not in recent.columns:
|
||
continue
|
||
for i in range(len(recent) - lookahead):
|
||
row = recent.iloc[i]
|
||
if not bool(row.get(sig, False)):
|
||
continue
|
||
future = recent.iloc[i + lookahead]
|
||
entry_close = float(row["close"])
|
||
future_close = float(future["close"])
|
||
confirmed = (sig == "reversal_long_signal" and future_close > entry_close) or \
|
||
(sig == "reversal_short_signal" and future_close < entry_close)
|
||
result[sig][0] += 1
|
||
if not confirmed:
|
||
result[sig][1] += 1
|
||
return result
|
||
|
||
def _build_reversal_lines(dfs, cutoff_kst, now_kst, symbol):
|
||
lines = [
|
||
f"📊 추세 꺾임 감지 통계 ({symbol})",
|
||
f"기준: {now_kst.strftime('%Y-%m-%d %H:%M')} KST (3봉 후 방향 일치)",
|
||
]
|
||
for tf in DAILY_REPORT_TIMEFRAMES:
|
||
df = dfs.get(tf)
|
||
counts = _count_reversal_outcomes(df, cutoff_kst, lookahead=3)
|
||
lines.append("")
|
||
lines.append(f"[{TF_LABEL_MAP.get(tf, tf)}]")
|
||
total_all = 0
|
||
failed_all = 0
|
||
for sig, lbl in [("reversal_long_signal", "🔄 롱 추세 꺾임 감지"),
|
||
("reversal_short_signal", "🔄 숏 추세 꺾임 감지")]:
|
||
t, f = counts[sig]
|
||
passed = t - f
|
||
lines.append(f"{lbl}: {passed}T {f}F")
|
||
total_all += t
|
||
failed_all += f
|
||
passed_all = total_all - failed_all
|
||
rate = (passed_all / total_all * 100) if total_all > 0 else 0.0
|
||
lines.append(f"합계: {passed_all}T {failed_all}F (승률 {rate:.2f}%)")
|
||
return "\n".join(lines)
|
||
|
||
def send_daily_report(symbol="BTCUSDT"):
|
||
now_kst = (datetime.now(timezone.utc) + KST).replace(tzinfo=None)
|
||
cutoff_kst = now_kst - timedelta(hours=24)
|
||
dfs = {}
|
||
for tf in DAILY_REPORT_TIMEFRAMES:
|
||
try:
|
||
dfs[tf] = _build_signal_df(symbol, tf, DAILY_REPORT_KLINES_LIMIT[tf])
|
||
except Exception as e:
|
||
print(f"[일일리포트 {tf} 데이터 오류] {e}")
|
||
dfs[tf] = None
|
||
msg_1x = _build_daily_report_lines(dfs, cutoff_kst, now_kst, symbol, offset=1, header_suffix="1배 시간 (다음 봉 검증)")
|
||
send_telegram(msg_1x)
|
||
msg_2x = _build_daily_report_lines(dfs, cutoff_kst, now_kst, symbol, offset=2, header_suffix="2배 시간 (2번째 봉 검증)")
|
||
send_telegram(msg_2x)
|
||
msg_touch = _build_stop_touch_lines(dfs, cutoff_kst, now_kst, symbol)
|
||
send_telegram(msg_touch)
|
||
msg_rev = _build_reversal_lines(dfs, cutoff_kst, now_kst, symbol)
|
||
send_telegram(msg_rev)
|
||
|
||
def _daily_report_loop():
|
||
while True:
|
||
try:
|
||
now_kst = (datetime.now(timezone.utc) + KST).replace(tzinfo=None)
|
||
today_str = now_kst.strftime("%Y-%m-%d")
|
||
if alert_state.last_report_date is None:
|
||
alert_state.last_report_date = today_str
|
||
print(f"[일일리포트] 스레드 기동 -- 다음 자정({today_str} 24:00 KST) 까지 대기")
|
||
elif alert_state.last_report_date != today_str:
|
||
print(f"[일일리포트] 자정 통과 감지 -> 발송 ({today_str})")
|
||
with alert_state.alert_lock:
|
||
symbol = alert_state.alert_symbol
|
||
send_daily_report(symbol)
|
||
alert_state.last_report_date = today_str
|
||
except Exception as e:
|
||
print(f"[일일리포트 스레드 오류] {e}")
|
||
time.sleep(60)
|
||
|
||
# ──────────────────────────────────────────────
|
||
# 메인 UI
|
||
# ──────────────────────────────────────────────
|
||
def main():
|
||
if not alert_state.alert_started:
|
||
t = threading.Thread(target=_alert_loop, daemon=True)
|
||
t.start()
|
||
alert_state.alert_started = True
|
||
|
||
if not alert_state.daily_report_started:
|
||
dr = threading.Thread(target=_daily_report_loop, daemon=True)
|
||
dr.start()
|
||
alert_state.daily_report_started = True
|
||
|
||
col1, col2, col3, col4, col5 = st.columns([2, 1, 1, 1, 2])
|
||
with col1:
|
||
st.markdown("### 📊 Futures Dashboard")
|
||
with col2:
|
||
symbol = st.selectbox("심볼", ["BTCUSDT","ETHUSDT","SOLUSDT","BNBUSDT"], index=0, label_visibility="collapsed")
|
||
with col3:
|
||
interval = st.selectbox("시간축", ["1m","3m","5m","15m","30m","1h","4h","12h","1d","3d","1M"], index=2, label_visibility="collapsed")
|
||
with col4:
|
||
refresh_sec = st.number_input("갱신(초)", min_value=10, max_value=300, value=30)
|
||
with col5:
|
||
now_kst = datetime.now(timezone.utc) + KST
|
||
st.markdown(f"<div style='text-align:right; font-size:12px; color:#888; margin-bottom:2px;'>🕐 마지막 갱신: {now_kst.strftime('%Y-%m-%d %H:%M:%S')} KST</div>", unsafe_allow_html=True)
|
||
col5a, col5b, col5c, col5d = st.columns(4)
|
||
with col5a:
|
||
refresh_btn = st.button("🔄 새로고침")
|
||
with col5b:
|
||
auto = st.checkbox("자동갱신", value=True)
|
||
with col5c:
|
||
show_legend = st.checkbox("범례", value=False)
|
||
with col5d:
|
||
mobile_mode = st.checkbox("모바일", value=False)
|
||
|
||
# 데스크톱: 53 (기존 모바일 캔들 수). 모바일: 14 (= 53 × 53/200, 기존 비율 유지)
|
||
candle_limit = 14 if mobile_mode else 53
|
||
|
||
with alert_state.alert_lock:
|
||
alert_state.alert_symbol = symbol
|
||
alert_state.alert_interval = interval
|
||
|
||
try:
|
||
with st.spinner("데이터 로딩 중..."):
|
||
fig, df = build_chart(symbol, interval, candle_limit)
|
||
|
||
try:
|
||
fr_df = get_funding_rate(symbol, 1)
|
||
if not fr_df.empty:
|
||
rate = fr_df["fundingRate"].iloc[-1]
|
||
if rate <= -0.007:
|
||
st.error(f"🚨 극단적 숏스퀴즈 위험 | FR: {rate:.4f}% | 숏 신규진입 절대 금지")
|
||
elif rate <= -0.005:
|
||
st.warning(f"⚠️ 숏스퀴즈 경보 구간 | FR: {rate:.4f}% | 숏 진입 시 청산가 재확인 필수")
|
||
elif rate >= 0.005:
|
||
st.info(f"📈 롱 과열 구간 | FR: {rate:.4f}% | 롱스퀴즈 주의")
|
||
else:
|
||
st.success(f"✅ FR 정상 | {rate:.4f}%")
|
||
except: pass
|
||
|
||
fig.update_layout(showlegend=show_legend)
|
||
st.plotly_chart(fig, use_container_width=True, config={
|
||
"scrollZoom": True,
|
||
"doubleClick": "reset",
|
||
"displayModeBar": True,
|
||
"modeBarButtonsToRemove": ["lasso2d", "select2d"],
|
||
})
|
||
|
||
|
||
|
||
except Exception as e:
|
||
st.error(f"데이터 로드 오류: {e}")
|
||
import traceback
|
||
st.code(traceback.format_exc())
|
||
|
||
if auto:
|
||
time.sleep(refresh_sec)
|
||
st.rerun()
|
||
|
||
if __name__ == "__main__":
|
||
main()
|