refactor: riorganizzazione script — Strategy ABC, folder strategies/waste/analysis

- 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>
This commit is contained in:
2026-05-27 23:01:36 +02:00
parent fa2d74be77
commit 0e47956f7a
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"""SQ02 — Squeeze Breakout + Anti-Fakeout + Volume Confirmation.
Migliora SQ01 con due filtri:
1. Anti-fakeout: scarta breakout dove la candela ritraccia >60% del range
2. Volume confirm: volume al breakout deve essere >1.3× la media durante squeeze
IN:
- OHLCV DataFrame
- Parametri: bb_window (14), sq_threshold (0.8), retrace_limit (0.6),
vol_multiplier (1.3)
OUT:
- Lista di Signal filtrati
- BacktestResult
Risultati tipici:
BTC 15m: 79.7% acc, 1250 trades, DD 6.5%, €5.23/day — SOLIDO 9/9 anni
ETH 15m: 78.6% acc, 942 trades, DD 3.4%, €4.33/day
BTC 1h: 78.0% acc, 473 trades, DD 3.5%, Sharpe 6.57
"""
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
from src.strategies.indicators import keltner_ratio, detect_squeezes
class SqueezeAntifakeVol(Strategy):
name = "SQ02_antifake_vol"
description = "Squeeze + antifakeout + volume confirmation"
default_assets = ["BTC", "ETH"]
default_timeframes = ["15m", "1h"]
def generate_signals(self, df: pd.DataFrame, ts: pd.DatetimeIndex,
**params) -> list[Signal]:
c = df["close"].values
h = df["high"].values
l = df["low"].values
v = df["volume"].values
n = len(c)
bb_w = params.get("bb_window", 14)
sq_thr = params.get("sq_threshold", 0.8)
retrace_limit = params.get("retrace_limit", 0.6)
vol_mult = params.get("vol_multiplier", 1.3)
kcr = keltner_ratio(c, h, l, bb_w)
events = detect_squeezes(c, h, l, kcr, sq_thr)
signals = []
for ev in events:
i = ev["idx"]
if i < 1 or i >= n:
continue
first_ret = (c[i] - c[i - 1]) / c[i - 1] if c[i - 1] > 0 else 0
if abs(first_ret) < 0.001:
continue
br = h[i] - l[i]
if br > 0:
if c[i] > c[i - 1]:
if (h[i] - c[i]) / br > retrace_limit:
continue
else:
if (c[i] - l[i]) / br > retrace_limit:
continue
avg_v = np.mean(v[ev["sq_start"]:i])
if avg_v > 0 and v[i] <= avg_v * vol_mult:
continue
signals.append(Signal(
idx=i,
direction=1 if first_ret > 0 else -1,
entry_price=c[i - 1],
metadata={"dur": ev["dur"], "vol_ratio": v[i] / avg_v if avg_v > 0 else 0},
))
return signals
if __name__ == "__main__":
strategy = SqueezeAntifakeVol()
strategy.report()