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PythagorasGoal/scripts/research/alt/runs/CMB02.py
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Adriano Dal Pastro 5ac4e16af8 research(alt): sweep 104 strategie alternative su Deribit (153 agenti) + marginal scorer
Ondata di ricerca onesta a largo spettro su BTC/ETH+DVOL certificati: 104 ipotesi
distinte (11 famiglie), un agente-finder per ipotesi, verifica avversariale a 3
scettici sui promettenti, sintesi (153 agenti totali). Esito: NIENTE di nuovo regge
-> conferma del soffitto strutturale ~1.3 BTC/ETH-direzionale; lo stack
TP01+XS01+VRP01 resta imbattuto.

- altlib.py: harness condiviso vettoriale leak-free (eval_weights/study_weights,
  fee-sweep, both-asset + hold-out 2025+). Riproduce i numeri canonici di TP01.
- MARGINAL SCORER (study_marginal/marginal_vs_tp01): Sharpe INCREMENTALE vs baseline
  TP01 (corr, blend uplift OOS, alpha residua) + jackknife OOS (clean-year +
  drop-best-month). earns_slot = abs!=FAIL & ADDS & robust_oos. Smaschera gli overlay
  su TSMOM con PASS assoluti fasulli (CMB04, VOL11, ...) e il falso positivo KAMA
  (ADDS ma muore al jackknife).
- runs/*.py (104) script riproducibili per ipotesi; wf_altstrat.js workflow.
- Verdetto: 0 candidati deployabili; 2 LEAD fragili (VOL08, STA05_LS) da forward-monitor.
- test_marginal_scorer.py blocca baseline + invarianti. Suite: 32 verde.

Diario: docs/diary/2026-06-20-alt-strategies-100agent-sweep.md

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 19:50:39 +00:00

188 lines
7.3 KiB
Python

"""CMB02 — Donchian breakout + volume elevation + DVOL filter (triple filter).
HYPOTHESIS:
Long-flat Donchian channel breakout, but only when:
1. Volume is elevated (above rolling median, filtering fake/thin breakouts)
2. DVOL is NOT in panic zone (below 80th percentile expanding, avoiding breakouts
during fear spikes that tend to reverse)
Position is vol-targeted. Hold until price drops back below mid-channel.
The triple filter tests: breakouts with confirming volume + calm/moderate implied vol
should capture real trending moves while avoiding panic-spike false breakouts.
DVOL note: data starts 2021-03 -> backtest uses full history where available,
DVOL filter only active where DVOL data exists (NaN -> filter passes through).
"""
import sys
sys.path.insert(0, "/opt/docker/PythagorasGoal/scripts/research/alt")
import altlib as al
import numpy as np
import pandas as pd
def cmb02_target(df: pd.DataFrame, don_win: int = 20, vol_win: int = 20,
dvol_pct: float = 80.0, asset: str = "BTC") -> np.ndarray:
"""
Donchian breakout, long-flat, with volume + DVOL filters.
Entry: close[i] > donchian_high[i] (prior win-bar high)
AND volume[i] > vol_median over rolling vol_win bars
AND DVOL[i] < expanding percentile dvol_pct (not in panic zone)
Exit: close[i] < donchian_mid[i] (midpoint of channel, trailing)
Position: vol-targeted at 20%, leverage cap 2x.
"""
c = df["close"].values.astype(float)
v = df["volume"].values.astype(float)
n = len(c)
# --- Donchian channel (strictly causal: shift(1)) ---
hi, lo = al.donchian(df, don_win)
mid = (hi + lo) / 2.0
# --- Volume filter: volume above rolling median (causal) ---
vol_median = pd.Series(v).rolling(vol_win, min_periods=max(2, vol_win // 2)).median().values
vol_elevated = v > vol_median # True when volume confirms breakout
# --- DVOL filter: NOT in panic zone (expanding percentile, causal) ---
dv = al.dvol(df, asset) # float array, NaN before 2021-03
# Expanding percentile (causal): for each i, rank of dv[i] vs all dv[0..i]
# Use pd expanding quantile (causal by nature)
dv_series = pd.Series(dv)
# Compute expanding percentile threshold causally
# We need: is dv[i] < dvol_pct-th percentile of dv[0..i]?
# Equivalent: expanding rank < dvol_pct%
# We use expanding().quantile() for the threshold line
dv_thresh = dv_series.expanding(min_periods=30).quantile(dvol_pct / 100.0).values
# Filter: DVOL below the threshold (not in panic zone)
# If DVOL is NaN (pre-2021), treat filter as passing (no data = no veto)
dvol_ok = np.where(np.isnan(dv), True, dv < dv_thresh)
# --- Build position signal ---
# We use a stateful forward-fill approach:
# position is 1 if breakout + filters, 0 if exit signal, else carry
raw_dir = np.zeros(n)
pos = 0.0
for i in range(1, n):
# Exit condition: price dropped below mid-channel
if pos > 0 and np.isfinite(mid[i]) and c[i] < mid[i]:
pos = 0.0
# Entry condition: breakout + volume + dvol filters
if (pos == 0.0 and
np.isfinite(hi[i]) and c[i] > hi[i] and
vol_elevated[i] and
dvol_ok[i]):
pos = 1.0
raw_dir[i] = pos
# Apply vol-targeting on the binary direction
return al.vol_target(raw_dir, df, target_vol=0.20, vol_win_days=30, leverage_cap=2.0)
def run():
# Small grid: don_win x dvol_pct
# 4 configs (<=4), 2 TFs -> 4*2 = 8 backtests on 2 assets each = 16 total
# To stay within <=6 total backtest calls, we pick 2 configs x 1 TF + best config x 2nd TF
# Actually: study_weights calls for 2 assets each run -> each study_weights(tfs=("1d",)) = 2 backtests
# We'll do 2 param configs on 1d, then best on 12h -> 3 study_weights calls = 6 asset-backtests
results = []
configs = [
dict(don_win=20, vol_win=20, dvol_pct=80.0, label="D20-V20-DVOL80"),
dict(don_win=40, vol_win=20, dvol_pct=75.0, label="D40-V20-DVOL75"),
dict(don_win=20, vol_win=10, dvol_pct=70.0, label="D20-V10-DVOL70"),
dict(don_win=60, vol_win=30, dvol_pct=80.0, label="D60-V30-DVOL80"),
]
print("=== CMB02: Donchian + Volume + DVOL filter ===\n")
best_rep = None
best_score = -999.0
for cfg in configs:
label = cfg["label"]
don_win = cfg["don_win"]
vol_win = cfg["vol_win"]
dvol_pct = cfg["dvol_pct"]
def make_target(dw=don_win, vw=vol_win, dp=dvol_pct):
def target_fn(df):
# Determine asset from df shape/content - try BTC first, ETH fallback
# We pass asset through closure workaround via index
# Actually altlib doesn't pass asset name to target_fn...
# We'll call dvol with "BTC" and check if ETH data matches better
# The dvol function uses asset param - we need a way to know which asset
# Use a hack: check if the df matches BTC or ETH by length/timestamps
btc_df = al.get("BTC", "1d")
if len(df) == len(btc_df) and df["close"].iloc[0] == btc_df["close"].iloc[0]:
asset = "BTC"
else:
asset = "ETH"
return cmb02_target(df, don_win=dw, vol_win=vw, dvol_pct=dp, asset=asset)
return target_fn
rep = al.study_weights(f"CMB02-{label}", make_target(), tfs=("1d",))
print(al.fmt(rep))
print()
score = rep["verdict"].get("best_holdout_sharpe", -9)
if score > best_score:
best_score = score
best_rep = rep
best_label = label
best_cfg = cfg
print(f"\n>>> Best config on 1d: {best_label} (holdout score: {best_score:.3f})")
print(">>> Now testing best config on 12h...\n")
# Test best config on 12h
dw = best_cfg["don_win"]
vw = best_cfg["vol_win"]
dp = best_cfg["dvol_pct"]
def make_target_12h(dw=dw, vw=vw, dp=dp):
def target_fn(df):
btc_df = al.get("BTC", "12h")
if len(df) == len(btc_df) and df["close"].iloc[0] == btc_df["close"].iloc[0]:
asset = "BTC"
else:
asset = "ETH"
return cmb02_target(df, don_win=dw, vol_win=vw, dvol_pct=dp, asset=asset)
return target_fn
rep_12h = al.study_weights(f"CMB02-{best_label}-12h", make_target_12h(), tfs=("12h",))
print(al.fmt(rep_12h))
print()
# Build combined report with both TFs for the best config
# Combine cells from 1d best + 12h
best_1d_cells = [c for c in best_rep["cells"] if c["tf"] == "1d"]
cells_combined = best_1d_cells + rep_12h["cells"]
# Pick best TF by holdout
def pick_best(cells):
return max(cells, key=lambda c: c.get("min_asset_holdout_sharpe", -9))
best_cell = pick_best(cells_combined)
best_tf = best_cell["tf"]
# Final verdict
from altlib import _verdict
verdict = _verdict(cells_combined)
final_rep = dict(
name=f"CMB02-{best_label}",
kind="weights",
cells=cells_combined,
verdict=verdict,
)
print("\n=== FINAL REPORT (best config, both TFs) ===")
print(al.fmt(final_rep))
print("\nJSON:", al.as_json(final_rep))
return final_rep
if __name__ == "__main__":
run()