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PythagorasGoal/Old/scripts/waste/MT01_squeeze_mtf_momentum.py
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

262 lines
9.3 KiB
Python

"""MT01 — Squeeze + Multi-Timeframe Momentum.
Problema SQ02: entra al breakout 15m ma non sa se il trend 1h è allineato.
Soluzione: squeeze su 15m + conferma momentum su 1h.
Anti-overfitting: usa solo 2 indicatori (squeeze + EMA slope),
nessun parametro complesso.
IN:
- OHLCV 15m + 1h per lo stesso asset
- Parametri: sq_threshold, ema_period_1h, min_slope
OUT:
- Signal al breakout 15m confermato da trend 1h
- BacktestResult
Logica:
1. Squeeze release su 15m (come SQ01)
2. Antifakeout filter (come SQ02)
3. Check 1h: EMA slope positiva per long, negativa per short
4. Check 1h: prezzo sopra/sotto EMA per conferma trend
5. Entra solo se 15m e 1h concordano
"""
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.strategies.indicators import keltner_ratio, detect_squeezes, ema
from src.data.downloader import load_data
class SqueezeMTFMomentum(Strategy):
name = "MT01_squeeze_mtf"
description = "Squeeze 15m + momentum trend 1h — multi-timeframe"
default_assets = ["BTC", "ETH"]
default_timeframes = ["15m"]
fee_rt = 0.002
def generate_signals(self, df, ts, **params):
"""Genera segnali squeeze 15m confermati da trend 1h."""
c = df["close"].values
h = df["high"].values
l = df["low"].values
v = df["volume"].values
n = len(c)
asset = params.get("asset", "BTC")
sq_thr = params.get("sq_threshold", 0.8)
ema_period = params.get("ema_period", 50)
min_slope_val = params.get("min_slope", 0.001)
use_antifake = params.get("antifake", True)
use_vol = params.get("vol_filter", False)
kcr = keltner_ratio(c, h, l, 14)
events = detect_squeezes(c, h, l, kcr, sq_thr)
df_1h = params.get("df_1h")
if df_1h is None:
df_1h = load_data(asset, "1h")
c1h = df_1h["close"].values
ts1h_ms = df_1h["timestamp"].values
n1h = len(c1h)
ema_1h = ema(c1h, ema_period)
ema_slope_arr = np.full(n1h, np.nan)
for i in range(5, n1h):
if not np.isnan(ema_1h[i]) and not np.isnan(ema_1h[i-5]) and ema_1h[i-5] > 0:
ema_slope_arr[i] = (ema_1h[i] - ema_1h[i-5]) / ema_1h[i-5]
ts_ms = df["timestamp"].values
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
if use_antifake:
br = h[i] - l[i]
if br > 0:
if c[i] > c[i-1] and (h[i] - c[i]) / br > 0.6:
continue
elif c[i] <= c[i-1] and (c[i] - l[i]) / br > 0.6:
continue
if use_vol:
avg_v = np.mean(v[ev["sq_start"]:i])
if avg_v > 0 and v[i] <= avg_v * 1.3:
continue
direction = 1 if first_ret > 0 else -1
i1h = np.searchsorted(ts1h_ms, ts_ms[i]) - 1
if i1h < ema_period or i1h >= n1h:
continue
if np.isnan(ema_1h[i1h]) or np.isnan(ema_slope_arr[i1h]):
continue
if direction == 1:
if c1h[i1h] < ema_1h[i1h] or ema_slope_arr[i1h] < min_slope_val:
continue
else:
if c1h[i1h] > ema_1h[i1h] or ema_slope_arr[i1h] > -min_slope_val:
continue
signals.append(Signal(idx=i, direction=direction, entry_price=c[i-1]))
return signals
def backtest(self, asset, tf="15m", hold=3, **params):
sq_thr = params.get("sq_threshold", 0.8)
ema_period = params.get("ema_period", 50)
min_slope = params.get("min_slope", 0.001)
use_antifake = params.get("antifake", True)
use_vol = params.get("vol_filter", False)
# Carica 15m e 1h
df_15m = load_data(asset, "15m")
df_1h = load_data(asset, "1h")
c15 = df_15m["close"].values
h15 = df_15m["high"].values
l15 = df_15m["low"].values
v15 = df_15m["volume"].values
n15 = len(c15)
ts15 = pd.to_datetime(df_15m["timestamp"], unit="ms", utc=True)
ts15_ms = df_15m["timestamp"].values
c1h = df_1h["close"].values
ts1h_ms = df_1h["timestamp"].values
n1h = len(c1h)
kcr = keltner_ratio(c15, h15, l15, 14)
events = detect_squeezes(c15, h15, l15, kcr, sq_thr)
# EMA su 1h
ema_1h = ema(c1h, ema_period)
# EMA slope (variazione percentuale su 5 barre)
ema_slope = np.full(n1h, np.nan)
for i in range(5, n1h):
if not np.isnan(ema_1h[i]) and not np.isnan(ema_1h[i - 5]) and ema_1h[i - 5] > 0:
ema_slope[i] = (ema_1h[i] - ema_1h[i - 5]) / ema_1h[i - 5]
yearly = {}
capital = float(self.initial_capital)
peak = capital
max_dd = 0.0
total_bars = 0
for ev in events:
i = ev["idx"]
if i + hold + 1 >= n15 or i < 1:
continue
first_ret = (c15[i] - c15[i - 1]) / c15[i - 1] if c15[i - 1] > 0 else 0
if abs(first_ret) < 0.001:
continue
# Antifake
if use_antifake:
br = h15[i] - l15[i]
if br > 0:
if c15[i] > c15[i - 1] and (h15[i] - c15[i]) / br > 0.6:
continue
elif c15[i] <= c15[i - 1] and (c15[i] - l15[i]) / br > 0.6:
continue
# Volume filter
if use_vol:
avg_v = np.mean(v15[ev["sq_start"]:i])
if avg_v > 0 and v15[i] <= avg_v * 1.3:
continue
direction = 1 if first_ret > 0 else -1
# Trova indice 1h corrispondente
i1h = np.searchsorted(ts1h_ms, ts15_ms[i]) - 1
if i1h < ema_period or i1h >= n1h or np.isnan(ema_1h[i1h]) or np.isnan(ema_slope[i1h]):
continue
# Conferma trend 1h
if direction == 1:
if c1h[i1h] < ema_1h[i1h]:
continue
if ema_slope[i1h] < min_slope:
continue
else:
if c1h[i1h] > ema_1h[i1h]:
continue
if ema_slope[i1h] > -min_slope:
continue
entry = c15[i - 1]
exit_price = c15[min(i + hold - 1, n15 - 1)]
actual = (exit_price - entry) / entry * direction
net = actual * self.leverage - self.fee_rt * self.leverage
capital += capital * self.position_size * net
capital = max(capital, 10)
if capital > peak: peak = capital
dd = (peak - capital) / peak
max_dd = max(max_dd, dd)
total_bars += hold
year = ts15.iloc[i].year
if year not in yearly:
yearly[year] = {"w": 0, "t": 0, "pnl": 0.0}
yearly[year]["t"] += 1
if actual > 0: yearly[year]["w"] += 1
yearly[year]["pnl"] += net * self.initial_capital
all_t = sum(d["t"] for d in yearly.values())
all_w = sum(d["w"] for d in yearly.values())
if all_t == 0:
return None
yearly_stats = [YearlyStats(y, d["t"], d["w"], d["pnl"]) for y, d in sorted(yearly.items())]
return BacktestResult(
strategy_name=self.name, asset=asset, timeframe="15m", params=params,
trades=all_t, wins=all_w, pnl=sum(d["pnl"] for d in yearly.values()),
capital=capital, initial_capital=self.initial_capital,
max_dd=max_dd * 100, time_in_market_pct=total_bars / n15 * 100,
avg_trade_duration_h=hold * 15 / 60, years_active=len(yearly), yearly=yearly_stats,
)
if __name__ == "__main__":
strategy = SqueezeMTFMomentum()
configs = [
("ema50 sl0.1%", {"ema_period": 50, "min_slope": 0.001}),
("ema50 sl0.05%", {"ema_period": 50, "min_slope": 0.0005}),
("ema50 sl0.2%", {"ema_period": 50, "min_slope": 0.002}),
("ema20 sl0.1%", {"ema_period": 20, "min_slope": 0.001}),
("ema50 sl0.1%+vol", {"ema_period": 50, "min_slope": 0.001, "vol_filter": True}),
("ema20 sl0.1%+vol", {"ema_period": 20, "min_slope": 0.001, "vol_filter": True}),
("ema50 noAF", {"ema_period": 50, "min_slope": 0.001, "antifake": False}),
("ema100 sl0.05%", {"ema_period": 100, "min_slope": 0.0005}),
]
all_results = []
for label, params in configs:
for asset in ["BTC", "ETH"]:
for hold in [3, 6]:
r = strategy.backtest(asset, "15m", hold=hold, **params)
if r and r.trades >= 30:
r.strategy_name = f"MT01 {label} h={hold}"
all_results.append(r)
all_results.sort(key=lambda r: r.accuracy, reverse=True)
print(f"\n{'=' * 130}")
print(f" MT01 SQUEEZE + MTF MOMENTUM — TOP 20")
print(f"{'=' * 130}")
for r in all_results[:20]:
r.print_summary()
if all_results:
all_results[0].print_yearly()
print(f"\n BENCHMARK SQ02: 79.7% acc, 1250t, DD 6.5%, 9 anni, €5.23/day")