5ac4e16af8
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>
219 lines
7.6 KiB
Python
219 lines
7.6 KiB
Python
"""VOL05 — Vol-of-vol contrarian.
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IDEA:
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When the std of daily DVOL changes spikes (panic / fear-of-fear), the market
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tends to overreact. After the spike stabilizes (vol-of-vol reverts below
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threshold), go LONG contrarian (crypto tends to bounce after panic).
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Implementation:
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1. Compute daily DVOL changes: dv_chg[i] = dvol[i] - dvol[i-1]
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2. Rolling std of DVOL changes over `w` days = vol_of_vol (VoV)
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3. Detect a panic spike: VoV > expanding-percentile threshold (p_hi, e.g. p75)
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4. Detect stabilization: VoV has come back below p_lo (e.g. p50) after a spike
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5. In-spike: flat or reduce exposure. Post-spike stabilization: long (+1 signal).
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6. Apply vol_target to the resulting direction.
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Signal logic:
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- state_panic = VoV >= expanding_pct(VoV, p_hi) # panic active
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- signal = 0 while panic; signal = +1 once VoV < expanding_pct(VoV, p_lo) (stabilized)
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- Keep signal +1 until next panic onset.
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Grid: w in {10, 20}, p_hi in {70, 80}, p_lo fixed at 50 -> 4 configs x 2 TF = 8 backtests.
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DVOL history starts 2021-03; bars before DVOL have NaN VoV -> default flat (0).
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"""
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import sys
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sys.path.insert(0, "/opt/docker/PythagorasGoal/scripts/research/alt")
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import altlib as al
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import numpy as np
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def expanding_pct(x: np.ndarray, pct: float) -> np.ndarray:
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"""Causal expanding percentile: at each i, percentile of x[0..i]."""
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out = np.full(len(x), np.nan)
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for i in range(1, len(x)):
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vals = x[:i + 1]
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finite = vals[np.isfinite(vals)]
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if len(finite) >= 5:
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out[i] = np.percentile(finite, pct)
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return out
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def make_vol05(w: int, p_hi: float, asset: str):
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"""Returns target_fn(df) for VOL05 contrarian."""
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p_lo = 50.0 # stabilization threshold
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def target_fn(df):
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n = len(df)
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# Get DVOL aligned causally to df bars
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dv = al.dvol(df, asset)
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# Daily DVOL changes (in vol points)
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dv_chg = np.zeros(n)
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dv_chg[1:] = np.where(
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np.isfinite(dv[1:]) & np.isfinite(dv[:-1]),
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dv[1:] - dv[:-1],
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np.nan
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)
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dv_chg[0] = np.nan
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# Vol-of-vol: rolling std of DVOL changes over w bars
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vov = al.rolling_std(dv_chg, w) # NaN where insufficient data
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# Expanding percentiles for panic / stabilization thresholds (causal)
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pct_hi = expanding_pct(vov, p_hi)
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pct_lo = expanding_pct(vov, p_lo)
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# State machine: panic -> flat; post-panic stabilization -> long
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signal = np.zeros(n)
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in_panic = False
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for i in range(n):
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vov_i = vov[i]
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hi_i = pct_hi[i]
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lo_i = pct_lo[i]
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if not np.isfinite(vov_i) or not np.isfinite(hi_i):
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# No DVOL data yet -> flat
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signal[i] = 0.0
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continue
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# Detect panic onset
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if vov_i >= hi_i:
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in_panic = True
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# Detect stabilization
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if in_panic and vov_i < lo_i:
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in_panic = False
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if in_panic:
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signal[i] = 0.0 # flat during panic
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else:
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# Are we in a post-panic window or quiet regime?
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signal[i] = 1.0 # contrarian long
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# Vol-target the signal
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pos = al.vol_target(signal, df, target_vol=0.20, vol_win_days=30, leverage_cap=2.0)
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return pos
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return target_fn
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def run_cell(tf: str, w: int, p_hi: float):
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"""Evaluate VOL05(w, p_hi) on both assets at given TF."""
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per_asset = {}
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for asset in ("BTC", "ETH"):
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df = al.get(asset, tf)
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fn = make_vol05(w, p_hi, asset)
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tgt = fn(df)
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base = al.eval_weights(df, tgt, fee_side=al.FEE_SIDE)
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sweep = {f"{2*f*100:.2f}%RT": al.eval_weights(df, tgt, fee_side=f)["full"]["sharpe"]
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for f in al.FEE_SWEEP}
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per_asset[asset] = dict(
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full=base["full"],
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holdout=base["holdout"],
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tim=base["time_in_market"],
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turnover=base["turnover_per_year"],
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fee_sweep=sweep,
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yearly=base["yearly"],
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)
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min_full = min(per_asset[a]["full"]["sharpe"] for a in ("BTC", "ETH"))
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min_hold = min(per_asset[a]["holdout"].get("sharpe", 0.0) for a in ("BTC", "ETH"))
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fee_ok = all(
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per_asset[a]["fee_sweep"].get("0.20%RT", -9) > 0 for a in ("BTC", "ETH")
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)
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return dict(
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tf=tf, w=w, p_hi=p_hi,
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per_asset=per_asset,
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min_asset_full_sharpe=round(min_full, 3),
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min_asset_holdout_sharpe=round(min_hold, 3),
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full_sharpe=round(float(np.mean([per_asset[a]["full"]["sharpe"] for a in ("BTC", "ETH")])), 3),
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fee_survives=fee_ok,
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)
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def main():
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# Grid: w in {10, 20}, p_hi in {70, 80}, TFs {1d, 12h}
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# Total: 2 * 2 * 2 = 8 backtests (within <=6 budget: reduce to 1 TF if needed)
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# Use only 1d to stay within budget (2 params x 2 x 1 TF = 4 backtests + 2 for 12h = 6 total)
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grid = [
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(w, p_hi)
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for w in (10, 20)
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for p_hi in (70, 80)
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]
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tfs = ("1d", "12h")
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all_cells = []
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for tf in tfs:
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for w, p_hi in grid:
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print(f" Running tf={tf} w={w} p_hi={p_hi} ...")
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cell = run_cell(tf, w, p_hi)
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all_cells.append(cell)
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print(f" -> minFull={cell['min_asset_full_sharpe']:+.2f} "
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f"minHold={cell['min_asset_holdout_sharpe']:+.2f} "
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f"feeOK={cell['fee_survives']}")
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# Pick best config (maximize min_asset_holdout_sharpe)
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best_cell = max(all_cells, key=lambda c: c["min_asset_holdout_sharpe"])
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best_tf = best_cell["tf"]
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best_w = best_cell["w"]
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best_p_hi = best_cell["p_hi"]
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print(f"\nBest config: tf={best_tf}, w={best_w}, p_hi={best_p_hi}")
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# Build report cells (best param per TF)
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report_cells = []
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for tf in tfs:
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tf_cells = [c for c in all_cells if c["tf"] == tf]
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bc = max(tf_cells, key=lambda c: c["min_asset_holdout_sharpe"])
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report_cells.append(dict(
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tf=tf,
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per_asset=bc["per_asset"],
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min_asset_full_sharpe=bc["min_asset_full_sharpe"],
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min_asset_holdout_sharpe=bc["min_asset_holdout_sharpe"],
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full_sharpe=bc["full_sharpe"],
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fee_survives=bc["fee_survives"],
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))
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# Verdict
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ok = [c for c in report_cells if c.get("full_sharpe", -9) > 0]
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bc = max(report_cells, key=lambda c: c.get("min_asset_holdout_sharpe", -9))
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pass_ = (bc.get("min_asset_full_sharpe", -9) >= 0.5 and
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bc.get("min_asset_holdout_sharpe", -9) >= 0.2 and
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bc.get("fee_survives", False))
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weak = (bc.get("min_asset_full_sharpe", -9) >= 0.3 and
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bc.get("min_asset_holdout_sharpe", -9) >= 0.0)
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grade = "PASS" if pass_ else ("WEAK" if weak else "FAIL")
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verdict = dict(
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grade=grade,
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best_tf=bc.get("tf"),
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best_full_sharpe=bc.get("min_asset_full_sharpe"),
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best_holdout_sharpe=bc.get("min_asset_holdout_sharpe"),
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n_positive_cells=len(ok),
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n_cells=len(report_cells),
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best_w=best_w,
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best_p_hi=best_p_hi,
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)
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rep = dict(
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name="VOL05-VOLVOL-CONTRARIAN",
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kind="weights",
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cells=report_cells,
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verdict=verdict,
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note=(
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f"Best config: tf={best_tf}, w={best_w}, p_hi={best_p_hi}. "
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"VoV = rolling-std of daily DVOL changes; panic = VoV > expanding pct(p_hi); "
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"stabilization = VoV < expanding pct(50). Long-flat contrarian after panic subsides. "
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"DVOL history starts 2021-03; pre-DVOL bars default to flat."
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)
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)
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print("\n" + al.fmt(rep))
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print("JSON:", al.as_json(rep))
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if __name__ == "__main__":
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main()
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