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PythagorasGoal/Old/scripts/waste/W22_perpetual_only.py
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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

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"""S2-12: Strategie SOLO su perpetual — dati 100% reali.
Niente opzioni, niente IV stimata. Solo prezzo OHLCV.
Mix di approcci diversi da quelli già testati su main.
1. Intraday range breakout con filtro volatilità
2. Daily open range breakout (prima ora di trading)
3. RSI divergence (prezzo fa nuovo min/max, RSI no)
4. Close-to-close momentum filtrato da volatilità regime
5. Multi-timeframe confirmation (15m signal + 1h trend)
Test per-anno, onesto, con fee reali perpetual (0.05% taker × 2 = 0.1% roundtrip).
"""
from __future__ import annotations
import sys
sys.path.insert(0, ".")
import numpy as np
import pandas as pd
from src.data.downloader import load_data
FEE_RT = 0.002 # 0.1% taker roundtrip
INITIAL = 1000
LEVERAGE = 3
def rsi(close, period=14):
delta = np.diff(close)
gain = np.where(delta > 0, delta, 0)
loss = np.where(delta < 0, -delta, 0)
result = np.full(len(close), 50.0)
if len(gain) < period:
return result
ag = np.mean(gain[:period])
al = np.mean(loss[:period])
for i in range(period, len(delta)):
ag = (ag * (period - 1) + gain[i]) / period
al = (al * (period - 1) + loss[i]) / period
if al == 0:
result[i + 1] = 100
else:
result[i + 1] = 100 - 100 / (1 + ag / al)
return result
def ema(arr, period):
r = np.full(len(arr), np.nan)
k = 2 / (period + 1)
r[period - 1] = np.mean(arr[:period])
for i in range(period, len(arr)):
r[i] = arr[i] * k + r[i - 1] * (1 - k)
return r
def run_all_perpetual(asset):
print(f"\n{'#'*70}")
print(f" {asset} — STRATEGIE PERPETUAL (dati reali)")
print(f" Fee: {FEE_RT*100}% roundtrip, Leva: {LEVERAGE}x")
print(f"{'#'*70}")
df_1h = load_data(asset, "1h")
df_15m = load_data(asset, "15m")
c1h = df_1h["close"].values
h1h = df_1h["high"].values
l1h = df_1h["low"].values
v1h = df_1h["volume"].values
n1h = len(c1h)
ts1h = pd.to_datetime(df_1h["timestamp"], unit="ms", utc=True)
rsi_14 = rsi(c1h, 14)
ema_20 = ema(c1h, 20)
ema_50 = ema(c1h, 50)
results = {}
# ======================================================
# STRAT 1: Daily Open Range Breakout
# Prima ora (08-09 UTC) definisce il range. Breakout = entrata.
# ======================================================
for hold, stop_m in [(6, 1.0), (12, 1.5), (4, 0.8)]:
name = f"ORB_h{hold}_s{stop_m}"
capital = float(INITIAL)
yearly = {}
for i in range(50, n1h - hold):
if ts1h.iloc[i].hour != 9: # fine della prima ora
continue
day = ts1h.iloc[i].strftime("%Y-%m-%d")
if day in yearly and len(yearly[day]) >= 1:
continue
range_high = h1h[i - 1]
range_low = l1h[i - 1]
range_size = range_high - range_low
if range_size <= 0:
continue
# ATR per stop
atr_14 = np.mean(h1h[max(0,i-14):i] - l1h[max(0,i-14):i])
if atr_14 <= 0:
continue
# Breakout detection: la candela attuale rompe il range
if c1h[i] > range_high:
direction = "long"
elif c1h[i] < range_low:
direction = "short"
else:
continue
entry = c1h[i]
stop_dist = atr_14 * stop_m
exit_price = c1h[min(i + hold, n1h - 1)]
for j in range(i + 1, min(i + hold + 1, n1h)):
if direction == "long":
if l1h[j] <= entry - stop_dist:
exit_price = entry - stop_dist
break
if h1h[j] >= entry + stop_dist * 2:
exit_price = entry + stop_dist * 2
break
else:
if h1h[j] >= entry + stop_dist:
exit_price = entry + stop_dist
break
if l1h[j] <= entry - stop_dist * 2:
exit_price = entry - stop_dist * 2
break
exit_price = c1h[j]
trade_ret = ((exit_price - entry) / entry if direction == "long" else (entry - exit_price) / entry)
net = trade_ret * LEVERAGE - FEE_RT * LEVERAGE
capital += capital * 0.15 * net
capital = max(capital, 10)
year = ts1h.iloc[i].year
if year not in yearly:
yearly[year] = []
yearly[year].append(net > 0)
if day not in yearly:
yearly[day] = []
if sum(len(v) for v in yearly.values() if isinstance(v, list) and all(isinstance(x, bool) for x in v)) > 30:
all_wins = [w for v in yearly.values() if isinstance(v, list) for w in v if isinstance(w, bool)]
acc = sum(all_wins) / len(all_wins) * 100
ret = (capital - INITIAL) / INITIAL * 100
results[name] = {"acc": acc, "ret": ret, "trades": len(all_wins), "capital": capital}
# ======================================================
# STRAT 2: RSI Divergence
# Prezzo fa nuovo low, RSI no = bullish divergence → long
# ======================================================
for lookback, rsi_thr_low, rsi_thr_high, hold in [(20, 30, 70, 6), (14, 25, 75, 8), (10, 35, 65, 4)]:
name = f"RSIdiv_lb{lookback}_h{hold}"
capital = float(INITIAL)
trades_list = []
for i in range(max(50, lookback + 1), n1h - hold):
day = ts1h.iloc[i].strftime("%Y-%m-%d")
# Bullish divergence: price new low, RSI higher low
price_new_low = c1h[i] < np.min(c1h[i - lookback : i])
rsi_higher = rsi_14[i] > np.min(rsi_14[i - lookback : i]) and rsi_14[i] < rsi_thr_low
# Bearish divergence: price new high, RSI lower high
price_new_high = c1h[i] > np.max(c1h[i - lookback : i])
rsi_lower = rsi_14[i] < np.max(rsi_14[i - lookback : i]) and rsi_14[i] > rsi_thr_high
direction = None
if price_new_low and rsi_higher:
direction = "long"
elif price_new_high and rsi_lower:
direction = "short"
if direction is None:
continue
entry = c1h[i]
exit_price = c1h[min(i + hold, n1h - 1)]
trade_ret = ((exit_price - entry) / entry if direction == "long" else (entry - exit_price) / entry)
net = trade_ret * LEVERAGE - FEE_RT * LEVERAGE
capital += capital * 0.12 * net
capital = max(capital, 10)
trades_list.append({"year": ts1h.iloc[i].year, "win": trade_ret > 0})
if len(trades_list) > 30:
acc = sum(1 for t in trades_list if t["win"]) / len(trades_list) * 100
ret = (capital - INITIAL) / INITIAL * 100
results[name] = {"acc": acc, "ret": ret, "trades": len(trades_list), "capital": capital}
# ======================================================
# STRAT 3: Momentum regime — trend following solo in low-vol regime
# ======================================================
for fast, slow, vol_w, vol_thr, hold in [
(8, 21, 48, 0.8, 12),
(5, 13, 24, 0.8, 6),
(13, 34, 72, 0.7, 24),
(8, 21, 48, 0.9, 8),
]:
name = f"MomReg_f{fast}s{slow}_h{hold}"
ema_f = ema(c1h, fast)
ema_s = ema(c1h, slow)
rv_short = np.full(n1h, np.nan)
rv_long = np.full(n1h, np.nan)
lr = np.diff(np.log(np.where(c1h == 0, 1e-10, c1h)))
for idx in range(vol_w, len(lr)):
rv_short[idx + 1] = np.std(lr[idx - min(12, vol_w) : idx])
rv_long[idx + 1] = np.std(lr[idx - vol_w : idx])
capital = float(INITIAL)
trades_list = []
daily_done = set()
for i in range(max(60, slow + 1), n1h - hold):
if np.isnan(ema_f[i]) or np.isnan(ema_s[i]) or np.isnan(rv_short[i]) or np.isnan(rv_long[i]):
continue
if rv_long[i] <= 0:
continue
day = ts1h.iloc[i].strftime("%Y-%m-%d")
if day in daily_done:
continue
# Only trade in low-vol regime
vol_ratio = rv_short[i] / rv_long[i]
if vol_ratio > vol_thr:
continue
# EMA crossover signal
cross_up = ema_f[i] > ema_s[i] and ema_f[i - 1] <= ema_s[i - 1]
cross_down = ema_f[i] < ema_s[i] and ema_f[i - 1] >= ema_s[i - 1]
if not (cross_up or cross_down):
continue
direction = "long" if cross_up else "short"
entry = c1h[i]
exit_price = c1h[min(i + hold, n1h - 1)]
trade_ret = ((exit_price - entry) / entry if direction == "long" else (entry - exit_price) / entry)
net = trade_ret * LEVERAGE - FEE_RT * LEVERAGE
capital += capital * 0.15 * net
capital = max(capital, 10)
trades_list.append({"year": ts1h.iloc[i].year, "win": trade_ret > 0})
daily_done.add(day)
if len(trades_list) > 30:
acc = sum(1 for t in trades_list if t["win"]) / len(trades_list) * 100
ret = (capital - INITIAL) / INITIAL * 100
results[name] = {"acc": acc, "ret": ret, "trades": len(trades_list), "capital": capital}
# ======================================================
# STRAT 4: Multi-TF confirmation (15m entry, 1h trend)
# ======================================================
c15 = df_15m["close"].values
h15 = df_15m["high"].values
l15 = df_15m["low"].values
ts15 = df_15m["timestamp"].values
n15 = len(c15)
ema_1h_50 = ema(c1h, 50)
rsi_15m = rsi(c15, 14)
capital = float(INITIAL)
trades_list = []
daily_done = set()
for i in range(100, n15 - 12):
ts_dt = pd.Timestamp(ts15[i], unit="ms", tz="UTC")
day = ts_dt.strftime("%Y-%m-%d")
if day in daily_done:
continue
# 15m signal: RSI extreme
if rsi_15m[i] > 35 and rsi_15m[i] < 65:
continue
# Find matching 1h candle
h_idx = np.searchsorted(ts1h.values.astype("int64"), ts15[i]) - 1
if h_idx < 50 or h_idx >= n1h or np.isnan(ema_1h_50[h_idx]):
continue
# 1h trend confirmation
trend_up = c1h[h_idx] > ema_1h_50[h_idx]
trend_down = c1h[h_idx] < ema_1h_50[h_idx]
direction = None
if rsi_15m[i] < 30 and trend_up:
direction = "long" # oversold in uptrend
elif rsi_15m[i] > 70 and trend_down:
direction = "short" # overbought in downtrend
if direction is None:
continue
entry = c15[i]
hold_bars = 12 # 12 × 15m = 3h
exit_price = c15[min(i + hold_bars, n15 - 1)]
trade_ret = ((exit_price - entry) / entry if direction == "long" else (entry - exit_price) / entry)
net = trade_ret * LEVERAGE - FEE_RT * LEVERAGE
capital += capital * 0.12 * net
capital = max(capital, 10)
trades_list.append({"year": ts_dt.year, "win": trade_ret > 0})
daily_done.add(day)
if len(trades_list) > 30:
acc = sum(1 for t in trades_list if t["win"]) / len(trades_list) * 100
ret = (capital - INITIAL) / INITIAL * 100
results["MultiTF_15m1h"] = {"acc": acc, "ret": ret, "trades": len(trades_list), "capital": capital}
# === PRINT RESULTS ===
print(f"\n {'Strategy':<25s} {'Trades':>7s} {'Acc':>6s} {'Return':>10s} {'Capital':>10s}")
print(f" {'-'*60}")
for name, r in sorted(results.items(), key=lambda x: x[1]["acc"], reverse=True):
tag = "✅" if r["acc"] >= 60 and r["ret"] > 30 else ""
print(f" {name:<25s} {r['trades']:>7d} {r['acc']:>5.1f}% {r['ret']:>+9.1f}% €{r['capital']:>9,.0f} {tag}")
for asset in ["ETH", "BTC"]:
run_all_perpetual(asset)