0e47956f7a
- src/strategies/base.py: Strategy ABC con Signal, BacktestResult, YearlyStats - src/strategies/indicators.py: keltner_ratio, detect_squeezes, ema, atr, rv, corr - scripts/strategies/: SQ01-SQ04 (squeeze puro/filtri), ML01 (squeeze+GBM) - scripts/waste/: W01-W22 script scartati + REF originali - scripts/analysis/: compare, best_yearly, final_report, paper_status - CLAUDE.md aggiornato con nuova struttura e tabella strategie Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
146 lines
5.0 KiB
Python
146 lines
5.0 KiB
Python
"""S2-03: Volatility Selling — Straddle/Strangle corto simulato.
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La IV crypto è cronicamente sopra la realized vol → vendere premium è profittevole.
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Simulazione: vendi straddle ATM → profitto = max(0, premium - |move|).
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Premium stimato da IV storica. Ingresso giornaliero.
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"""
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from __future__ import annotations
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import sys
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sys.path.insert(0, ".")
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import numpy as np
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import pandas as pd
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from scipy.stats import norm
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from src.data.downloader import load_data
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FEE = 0.001
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INITIAL = 1000
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def realized_vol(close: np.ndarray, window: int = 24) -> np.ndarray:
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"""Annualized realized volatility rolling."""
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log_ret = np.diff(np.log(np.where(close == 0, 1e-10, close)))
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result = np.full(len(close), 0.5)
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for i in range(window, len(log_ret)):
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rv = np.std(log_ret[i - window : i]) * np.sqrt(24 * 365)
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result[i + 1] = rv
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return result
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def implied_vol_proxy(close: np.ndarray, window: int = 48) -> np.ndarray:
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"""IV proxy: realized vol * premium factor.
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Storicamente IV crypto ≈ 1.2-1.5x realized vol (variance risk premium).
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"""
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rv = realized_vol(close, window)
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# Premium factor varia: alto in panic, basso in calma
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result = np.full(len(close), 0.5)
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for i in range(window, len(close)):
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short_rv = realized_vol(close[max(0, i-12):i+1], min(12, i))[-1] if i >= 12 else rv[i]
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if rv[i] > 0:
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regime = short_rv / rv[i]
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premium = 1.15 + 0.3 * max(0, regime - 1) # più alto in regime volatile
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else:
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premium = 1.2
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result[i] = rv[i] * premium
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return result
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def bs_straddle_price(spot: float, iv: float, dte_hours: float) -> float:
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"""Black-Scholes straddle price (call + put ATM)."""
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if dte_hours <= 0 or iv <= 0:
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return 0
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t = dte_hours / (24 * 365)
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d1 = (0.5 * iv * iv * t) / (iv * np.sqrt(t))
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call = spot * (2 * norm.cdf(d1) - 1)
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return call * 2 # straddle = 2 * ATM call (approx for ATM)
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def run_vol_selling(asset):
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print(f"\n{'#'*60}")
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print(f" {asset} — VOLATILITY SELLING (SHORT STRADDLE)")
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print(f"{'#'*60}")
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df = load_data(asset, "1h")
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close = df["close"].values
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n = len(close)
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split = int(n * 0.7)
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timestamps = pd.to_datetime(df["timestamp"], unit="ms", utc=True)
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rv = realized_vol(close, 24)
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iv_proxy = implied_vol_proxy(close)
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configs = [
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# (dte_hours, iv_floor, iv_rv_ratio_min, position_pct, name)
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(24, 0.3, 1.15, 0.1, "daily_24h"),
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(12, 0.3, 1.15, 0.08, "half_day_12h"),
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(48, 0.3, 1.10, 0.12, "2day_48h"),
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(24, 0.4, 1.20, 0.1, "daily_highIV"),
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(8, 0.25, 1.10, 0.06, "ultra_short_8h"),
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(24, 0.3, 1.30, 0.15, "daily_bigPremium"),
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]
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for dte, iv_floor, ratio_min, pos_pct, name in configs:
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capital = float(INITIAL)
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correct = 0
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total = 0
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daily_trades = {}
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for i in range(max(split, 50), n - dte):
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day = timestamps[i].strftime("%Y-%m-%d")
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if daily_trades.get(day, 0) >= 1:
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continue
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hour = timestamps[i].dt.hour if hasattr(timestamps[i], 'dt') else timestamps.iloc[i].hour
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if hour != 8: # entrata alle 08 UTC ogni giorno
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continue
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current_iv = iv_proxy[i]
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current_rv = rv[i]
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if current_iv < iv_floor:
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continue
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if current_rv > 0 and current_iv / current_rv < ratio_min:
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continue
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spot = close[i]
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premium = bs_straddle_price(spot, current_iv, dte)
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premium_pct = premium / spot
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# Actual move during holding period
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exit_idx = min(i + dte, n - 1)
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actual_move = abs(close[exit_idx] - spot)
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actual_move_pct = actual_move / spot
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# P&L: premium received - actual move (capped at max loss)
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max_loss = spot * 0.05 # cap loss at 5% of spot
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pnl = premium - min(actual_move, max_loss + premium)
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pnl_on_capital = pnl / spot * pos_pct
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fee_cost = FEE * 4 * pos_pct # 4 legs: sell call, sell put, buy back
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net_pnl = pnl_on_capital - fee_cost
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capital += capital * net_pnl
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capital = max(capital, 0)
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total += 1
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if pnl > 0:
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correct += 1
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daily_trades[day] = daily_trades.get(day, 0) + 1
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if total < 20:
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continue
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acc = correct / total * 100
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ret = (capital - INITIAL) / INITIAL * 100
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test_days = (n - split) / 24
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test_years = test_days / 365.25
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ann = ((capital / INITIAL) ** (1 / test_years) - 1) * 100 if test_years > 0 and capital > 0 else -100
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dpnl = (capital - INITIAL) / test_days if test_days > 0 else 0
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days_active = len(daily_trades)
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tag = "✅" if acc >= 60 and ann >= 30 else ""
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print(f" {name:20s}: trades={total:4d} acc={acc:.1f}% ret={ret:+.1f}% ann={ann:+.1f}% €/day={dpnl:.2f} active={days_active} {tag}")
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for asset in ["ETH", "BTC"]:
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run_vol_selling(asset)
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