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

51 lines
3.0 KiB
Python

import sys; sys.path.insert(0,".")
import numpy as np, pandas as pd
from scripts.analysis.regime_lab import load_features
import importlib
FEE=0.001; LEV=3
def load_strat(mod):
m=importlib.import_module(mod)
return next(v() for k,v in vars(m).items() if isinstance(v,type) and hasattr(v,'generate_signals') and getattr(v,'__module__','')==m.__name__)
STR={"MR01":("scripts.strategies.MR01_bollinger_fade",dict(bb_window=50,k=2.5,sl_atr=2.0,max_bars=24,trend_max=3.0)),
"MR02":("scripts.strategies.MR02_donchian_fade",dict(n=20,sl_atr=2.0,max_bars=24,trend_max=3.0)),
"MR07":("scripts.strategies.MR07_return_reversal",dict(n=50,k=3.5,tp_atr=2.0,sl_atr=1.5,max_bars=24,trend_max=3.0))}
def replay(df,sigs):
h=df['high'].values;l=df['low'].values;c=df['close'].values;out=[];last=-1
for s in sigs:
i=s.idx
if i<=last: continue
d=s.direction;tp=s.metadata['tp'];sl=s.metadata['sl'];mb=s.metadata['max_bars'];j=min(i+mb,len(c)-1);exit_p=c[j];reason='time'
for t in range(i+1,j+1):
if d==1:
if l[t]<=sl: exit_p=sl;j=t;reason='sl';break
if h[t]>=tp: exit_p=tp;j=t;reason='tp';break
else:
if h[t]>=sl: exit_p=sl;j=t;reason='sl';break
if l[t]<=tp: exit_p=tp;j=t;reason='tp';break
out.append((i,(exit_p-c[i])/c[i]*d*LEV-FEE*LEV,reason));last=j
return out
rows=[]
for asset in ("BTC","ETH"):
df=load_features(asset,"1h");ts=pd.to_datetime(df['timestamp'],unit='ms',utc=True)
for code,(mod,par) in STR.items():
s=load_strat(mod)
for i,ret,reason in replay(df,s.generate_signals(df,ts,**par)):
rows.append(dict(ret=ret,reason=reason,dvol_pct=df['dvol_pct'].iloc[i],hurst=df['hurst'].iloc[i],
vratio=df['vratio'].iloc[i],higuchi=df['higuchi'].iloc[i]))
R=pd.DataFrame(rows).dropna(subset=['dvol_pct','hurst'])
L=R[R.ret<0] # solo i trade in perdita
print(f"trade {len(R)} | in perdita {len(L)} ({len(L)/len(R)*100:.0f}%) | somma perdite {L.ret.sum()*100:.0f}% | media perdita {L.ret.mean()*100:.2f}%")
print("\n=== somma PERDITE per regime (dove si concentra il danno) ===")
R['dvbin']=pd.cut(R.dvol_pct,[0,.33,.66,1],labels=['LOWvol','MID','HIGHvol'])
R['hbin']=pd.cut(R.hurst,[0,.45,.55,1],labels=['anti<.45','.45-.55','trend>.55'])
piv=R[R.ret<0].pivot_table(index='dvbin',columns='hbin',values='ret',aggfunc='sum',observed=True)*100
print((piv.round(0)).to_string())
print("\n (numeri = somma % delle perdite per cella; piu negativo = piu danno)")
print("\n=== quota di SL (stop) per regime ===")
slr=R.groupby(['dvbin','hbin'],observed=True).apply(lambda x:(x.reason=='sl').mean()*100, include_groups=False)
print(slr.round(0).to_string())
# worst tail
print(f"\n=== peggiori 1% trade: dove? ===")
W=R.nsmallest(max(10,len(R)//100),'ret')
print(f" worst {len(W)} trade: dvol_pct medio {W.dvol_pct.mean():.2f}, hurst medio {W.hurst.mean():.2f}, quota hurst>.55 {(W.hurst>.55).mean()*100:.0f}%, quota dvol<.33 {(W.dvol_pct<.33).mean()*100:.0f}%")