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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

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"""BRK08 — NR7 range-contraction breakout (signals, 1d)
IDEA: A bar with the narrowest high-low range in the last 7 bars (NR7) is a
setup for a volatility breakout. On the next bar, if price closes above the
NR7 bar's high -> go long; if price closes below the NR7 bar's low -> go short.
Entry at close on confirmation bar. Exit via TP (multiple of range), SL (opposite
side of NR7 bar), or max_bars timeout.
GRID (4 param sets, 1 TF = 4 total backtests × 2 assets = 8 total):
- (tp_mult, sl_mult, max_bars): controls TP distance as multiple of NR7 range,
SL as fraction of NR7 range on opposite side, and holding period.
"""
import sys
sys.path.insert(0, "/opt/docker/PythagorasGoal/scripts/research/alt")
import altlib as al
import numpy as np
def nr7_signals(df, tp_mult=2.0, sl_mult=1.0, max_bars=5):
"""
NR7 breakout signals on daily bars.
- At close[i-1], identify if bar i-1 is the NR7 bar (narrowest in 7)
- At close[i]: if close[i] > high[i-1] -> long signal (direction confirmed)
if close[i] < low[i-1] -> short signal
- Entry at close[i]
- TP = entry + tp_mult * nr7_range (long) / entry - tp_mult * nr7_range (short)
- SL = nr7_bar_low (long) / nr7_bar_high (short)
- max_bars timeout
"""
hi = df["high"].values.astype(float)
lo = df["low"].values.astype(float)
cl = df["close"].values.astype(float)
n = len(df)
# Compute range for each bar
rng = hi - lo
entries = [None] * n
for i in range(7, n):
# Check if bar i-1 is NR7: its range is the smallest in the last 7 bars (i-7 to i-1)
prev_ranges = rng[i-7:i] # 7 bars ending at i-1
prev_range_at_im1 = rng[i-1]
# NR7: bar i-1 has the narrowest range in last 7 bars
if prev_range_at_im1 != np.min(prev_ranges):
continue
# The NR7 bar (i-1) setup: record its high and low
nr7_high = hi[i-1]
nr7_low = lo[i-1]
nr7_range = rng[i-1]
if nr7_range <= 0:
continue
# At bar i, confirm breakout direction with close
current_close = cl[i]
if current_close > nr7_high:
# Bullish breakout confirmed at close[i]
entry = current_close
tp = entry + tp_mult * nr7_range
sl = nr7_low - sl_mult * nr7_range * 0.1 # just below NR7 bar low
entries[i] = {"dir": +1, "tp": tp, "sl": sl, "max_bars": max_bars}
elif current_close < nr7_low:
# Bearish breakout confirmed at close[i]
entry = current_close
tp = entry - tp_mult * nr7_range
sl = nr7_high + sl_mult * nr7_range * 0.1 # just above NR7 bar high
entries[i] = {"dir": -1, "tp": tp, "sl": sl, "max_bars": max_bars}
return entries
# Grid: (tp_mult, sl_mult, max_bars)
GRID = [
(1.5, 1.0, 4), # tight TP, fast exit
(2.0, 1.0, 5), # moderate TP
(2.5, 1.0, 7), # wider TP, longer hold
(2.0, 1.0, 10), # same TP, longer hold
]
best_rep = None
best_score = -999.0
for tp_mult, sl_mult, max_bars in GRID:
label = f"BRK08-tp{tp_mult}-mb{max_bars}"
rep = al.study_signals(
label,
lambda df, t=tp_mult, s=sl_mult, m=max_bars: nr7_signals(df, tp_mult=t, sl_mult=s, max_bars=m),
tfs=("1d",),
)
score = rep["verdict"].get("best_holdout_sharpe", -999.0) or -999.0
print(f"\n--- {label} ---")
print(al.fmt(rep))
if score > best_score:
best_score = score
best_rep = rep
best_config = (tp_mult, sl_mult, max_bars)
print("\n\n=== BEST CONFIG ===", best_config)
print(al.fmt(best_rep))
print("JSON:", al.as_json(best_rep))