Files
Adriano Dal Pastro 14522262e6 chore(reset): v2.0.0 — storico certificato Deribit mainnet, ripartenza pulita
Reset del progetto su fondamenta verificate dopo la scoperta che l'intera
libreria "validata OOS" era artefatto di feed contaminato (print fantasma del
feed Cerbero TESTNET + storico Binance/USDT).

- Storico ricostruito da Deribit MAINNET (ccxt pubblico, tokenless) e
  CERTIFICATO (certify_feed.py): BTC/ETH puliti su TUTTA la storia
  (mediana 2-6 bps vs Coinbase USD), integrita' OHLC + coerenza resample
  (maxΔ 0.00) + cross-venue OK. Alt esclusi (illiquidi/divergenti: LTC/DOGE
  50-82% barre flat; XRP/BNB non certificabili).
- Verdetto sul feed pulito: FADE / PAIRS / XS01 / TSM01 morti (ogni
  portafoglio Sharpe -2.3..-3.0, DD ~40%); solo SH01 e frammenti HONEST
  con segnale residuo, da ri-validare in isolamento.
- Cleanup "restart pulito": strategie, stack live (src/live, src/portfolio,
  runner/executor, yml, docker), ~100 script ricerca/gate, waste/games/
  portfolios, dati non certificati + cache e 60+ diari -> archiviati in Old/
  (preservati, non cancellati). Diario consolidato in un unico documento.
- Skeleton ricerca tenuto: Strategy ABC + indicatori + src/fractal +
  src/backtest/engine + load_data; tool dati certificati (rebuild_history,
  certify_feed, audit_feed, multi_source_check).
- Universo dati ATTIVO: solo BTC/ETH (5m/15m/1h); guardrail fisico
  (load_data su alt -> FileNotFoundError). Esecuzione DISABILITATA, conto flat.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-19 15:20:59 +00:00

196 lines
8.3 KiB
Python

"""MR01 — Bollinger Fade (mean-reversion).
L'UNICA famiglia con edge netto reale dopo l'analisi out-of-sample fee-aware
(vedi scripts/analysis/strategy_research.py). Contrario della tesi squeeze:
i breakout RIENTRANO, quindi si fada l'estremo verso la media.
Logica:
1. Bollinger Band (window n, k deviazioni) sul close
2. ENTRY: close esce sotto la banda inferiore -> long (o sopra la superiore -> short)
3. EXIT: take-profit alla media mobile (il rientro atteso),
stop-loss a sl_atr*ATR oltre l'estremo, oppure time-limit max_bars
4. ingresso a close[i] (eseguibile dal vivo, nessun look-ahead)
Validazione (netto, fee 0.10% RT reale Deribit, leva 3x, OOS = ultimo 30%):
BTC 1h n=50 k=2.5: +201% OOS, DD 15%, ~tutti gli anni positivi
ETH 1h n=50 k=2.0: +1238% OOS, DD 23%
Robusto su TUTTA la griglia n in {14,20,30,50} x k in {2.0,2.5,3.0}
e su tutte le fee 0.00-0.20% RT (margine di sicurezza ampio).
NOTA LIVE: usa TP alla media + SL ad ATR + max_bars. Lo StrategyWorker attuale
esce solo a hold_bars/stop -2% fisso: per tradarla come validata il worker deve
supportare gli exit TP/SL passati in metadata (vedi metadata di ogni Signal).
"""
from __future__ import annotations
import sys
sys.path.insert(0, ".")
import numpy as np
import pandas as pd
from src.strategies.base import Strategy, Signal, BacktestResult, YearlyStats, TF_MINUTES
from src.data.downloader import load_data
from src.strategies.fade_base import hurst_skip_mask
def _atr(df: pd.DataFrame, n: int = 14) -> np.ndarray:
h, l, c = df["high"].values, df["low"].values, df["close"].values
pc = np.roll(c, 1); pc[0] = c[0]
tr = np.maximum(h - l, np.maximum(np.abs(h - pc), np.abs(l - pc)))
return pd.Series(tr).rolling(n).mean().values
class BollingerFade(Strategy):
name = "MR01_bollinger_fade"
description = "Mean-reversion: fada la banda di Bollinger, TP alla media"
default_assets = ["BTC", "ETH"]
default_timeframes = ["1h"]
fee_rt = 0.001 # Deribit perp realistico (taker 0.05%/lato)
leverage = 3.0
position_size = 0.15
initial_capital = 1000.0
def generate_signals(self, df: pd.DataFrame, ts: pd.DatetimeIndex,
**params) -> list[Signal]:
c = df["close"].values
n_len = len(c)
bb_w = params.get("bb_window", 50)
k = params.get("k", 2.5)
sl_atr = params.get("sl_atr", 2.0)
max_bars = params.get("max_bars", 24)
trend_max = params.get("trend_max") # None = filtro disattivo
ema_long = params.get("ema_long", 200)
# Edge minimo: salta i segnali il cui TP (la media) è più vicino dell'entry del
# costo round-trip -> perdenti garantiti anche colpendo il TP. 0 = off.
min_tp_frac = params.get("min_tp_frac", 0.0)
# Loss-guard Hurst: salta in regime persistente/trending (hurst >= soglia). None = off.
hurst_max = params.get("hurst_max")
ma = pd.Series(c).rolling(bb_w).mean().values
sd = pd.Series(c).rolling(bb_w).std().values
a = _atr(df, 14)
up, lo = ma + k * sd, ma - k * sd
el = pd.Series(c).ewm(span=ema_long, adjust=False).mean().values if trend_max is not None else None
skip = hurst_skip_mask(df, hurst_max, params.get("hurst_win", 100))
signals: list[Signal] = []
for i in range(bb_w + 14, n_len):
if np.isnan(up[i]) or np.isnan(a[i]):
continue
if skip[i]:
continue # loss-guard: regime persistente
if el is not None and (a[i] == 0 or np.isnan(el[i]) or abs(c[i] - el[i]) / a[i] > trend_max):
continue
if c[i] < lo[i] and c[i - 1] >= lo[i - 1]:
d, sl = 1, c[i] - sl_atr * a[i]
elif c[i] > up[i] and c[i - 1] <= up[i - 1]:
d, sl = -1, c[i] + sl_atr * a[i]
else:
continue
if min_tp_frac > 0 and abs(ma[i] - c[i]) / c[i] <= min_tp_frac:
continue # TP entro le fee -> non eseguibile in utile
signals.append(Signal(
idx=i, direction=d, entry_price=c[i],
metadata={"tp": float(ma[i]), "sl": float(sl), "max_bars": max_bars},
))
return signals
def backtest(self, asset: str, tf: str = "1h", hold: int = 3,
**params) -> BacktestResult | None:
"""Backtest fedele: TP alla media / SL ad ATR / time-limit, fee+leva nette."""
df = load_data(asset, tf)
ts = pd.to_datetime(df["timestamp"], unit="ms", utc=True)
signals = self.generate_signals(df, ts, **params)
if not signals:
return None
h, l, c = df["high"].values, df["low"].values, df["close"].values
n = len(c)
# EXIT-16 close-confirm SL (2026-06-04): come in fade_base.FadeStrategy.backtest.
# None = comportamento storico. Vedi docs/diary/2026-06-04-exit-lab.md.
sl_confirm = params.get("sl_confirm_atr")
a14 = _atr(df, 14) if sl_confirm else None
fee = self.fee_rt * self.leverage
capital = peak = float(self.initial_capital)
max_dd = 0.0
total_bars = 0
last_exit = -1
yearly: dict[int, dict] = {}
for sig in signals:
i, d = sig.idx, sig.direction
if i <= last_exit or i + 1 >= n:
continue
entry = c[i]
tp, sl, mb = sig.metadata["tp"], sig.metadata["sl"], sig.metadata["max_bars"]
exit_p = c[min(i + mb, n - 1)]
j = min(i + mb, n - 1)
for step in range(1, mb + 1):
j = i + step
if j >= n:
j = n - 1; exit_p = c[j]; break
hit_tp = (d == 1 and h[j] >= tp) or (d == -1 and l[j] <= tp)
if sl_confirm is None:
hit_sl = (d == 1 and l[j] <= sl) or (d == -1 and h[j] >= sl)
if hit_sl:
exit_p = sl; break
if hit_tp:
exit_p = tp; break
else:
# close-confirm: TP intrabar al livello; SL valutato sul CLOSE
if hit_tp:
exit_p = tp; break
buf = sl_confirm * a14[j]
if (d == 1 and c[j] < sl - buf) or (d == -1 and c[j] > sl + buf):
exit_p = c[j]; break
if step == mb:
exit_p = c[j]
ret = (exit_p - entry) / entry * d * self.leverage - fee
capital = max(capital + capital * self.position_size * ret, 10.0)
if capital > peak:
peak = capital
max_dd = max(max_dd, (peak - capital) / peak)
total_bars += (j - i)
last_exit = j
year = ts.iloc[i].year
yr = yearly.setdefault(year, {"w": 0, "t": 0, "pnl": 0.0})
yr["t"] += 1
if ret > 0:
yr["w"] += 1
yr["pnl"] += ret * self.initial_capital
all_t = sum(v["t"] for v in yearly.values())
all_w = sum(v["w"] for v in yearly.values())
if all_t == 0:
return None
yearly_stats = [YearlyStats(y, v["t"], v["w"], v["pnl"]) for y, v in sorted(yearly.items())]
return BacktestResult(
strategy_name=self.name, asset=asset, timeframe=tf, params=params,
trades=all_t, wins=all_w, pnl=sum(v["pnl"] for v in yearly.values()),
capital=capital, initial_capital=self.initial_capital,
max_dd=max_dd * 100, time_in_market_pct=total_bars / n * 100,
avg_trade_duration_h=total_bars / all_t * TF_MINUTES.get(tf, 60) / 60,
years_active=len(yearly), yearly=yearly_stats,
)
if __name__ == "__main__":
strat = BollingerFade()
print(f"{'=' * 110}")
print(f" MR01 BOLLINGER FADE — netto fee {strat.fee_rt*100:.2f}% RT, leva {strat.leverage:.0f}x")
print(f"{'=' * 110}")
results = []
for asset in ["BTC", "ETH"]:
for k in [2.0, 2.5]:
r = strat.backtest(asset, "1h", bb_window=50, k=k, sl_atr=2.0, max_bars=24)
if r:
r.strategy_name = f"MR01 {asset} 1h n50 k{k}"
results.append(r)
for r in results:
r.print_summary()
if results:
results[0].print_yearly()