Files
PythagorasGoal/tests/test_portfolio.py
T
Adriano Dal Pastro 160ad300be feat(portfolio): Deribit-only executable book (TP01+SKH01) + periodic rebalancing
- deribit_book_sleeves(): TP01 75% + SKH01 25% — the two directional BTC/ETH legs on
  ONE venue (Deribit), both since 2019. Excludes XS01 (Hyperliquid/stat-mode) & VRP01
  (modeled options). FULL Sharpe 1.78 / HOLD 1.17 / DD 9.4% (research).
- rebalance_sim(): realistic PERIODIC rebalancing (drift between dates, turnover cost at
  Deribit-taker ~5bps/side) vs the idealized continuous rebalance of combined_daily.
  period=1 + cost=0 reduces to continuous (tested).
- run_deribit_book.py: report — continuous vs weekly/biweekly/monthly rebal, per-year,
  accumulation €2k & $600-real, min-order $5 note. Finding: turnover is LOW (0.2-0.4x/yr),
  so monthly rebal (€7,919) ~= continuous (€7,938) — cost is negligible; daily would be
  sub-min-order fiction at $600 -> use >= weekly.
- +2 tests (rebalance_sim continuity & cost). Full suite green.

TP01 is the only live-armed leg; SKH01 is the candidate 2nd leg (validate execution code first).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-23 20:26:53 +00:00

101 lines
4.1 KiB
Python

"""Test del contenitore portafoglio estensibile."""
import sys
from pathlib import Path
PROJECT_ROOT = Path(__file__).resolve().parents[1]
sys.path.insert(0, str(PROJECT_ROOT))
import numpy as np
import pandas as pd
import pytest
from src.portfolio.portfolio import Sleeve, StrategyPortfolio, to_daily, metrics, rebalance_sim
def _const_sleeve(name, weight, val, n=400):
idx = pd.date_range("2020-01-01", periods=n, freq="1D", tz="UTC")
return Sleeve(name, weight, lambda: pd.Series(val, index=idx))
def _ret_series(vals):
idx = pd.date_range("2020-01-01", periods=len(vals), freq="1D", tz="UTC")
return pd.Series(vals, index=idx)
def test_rebalance_sim_no_cost_period1_matches_continuous():
"""period=1 + cost=0 deve coincidere col rebalance-continuo (weighted-return giornaliero)."""
rng = np.random.default_rng(0)
A = _ret_series(rng.normal(0.001, 0.02, 300))
B = _ret_series(rng.normal(0.000, 0.03, 300))
w = {"A": 0.6, "B": 0.4}
sim = rebalance_sim({"A": A, "B": B}, w, period_days=1, cost_rate=0.0)
cont = 0.6 * A + 0.4 * B
assert np.allclose(sim["daily"].values, cont.values, atol=1e-12)
assert sim["n_rebalances"] == 300
def test_rebalance_sim_cost_reduces_return_and_counts():
"""Il costo del turnover abbassa il rendimento; ribilanci meno frequenti = meno costo."""
rng = np.random.default_rng(1)
A = _ret_series(rng.normal(0.001, 0.02, 360))
B = _ret_series(rng.normal(0.001, 0.04, 360))
w = {"A": 0.5, "B": 0.5}
free = rebalance_sim({"A": A, "B": B}, w, period_days=7, cost_rate=0.0)["daily"]
weekly = rebalance_sim({"A": A, "B": B}, w, period_days=7, cost_rate=0.001)
monthly = rebalance_sim({"A": A, "B": B}, w, period_days=30, cost_rate=0.001)
assert weekly["daily"].sum() < free.sum() # il costo morde
assert monthly["n_rebalances"] < weekly["n_rebalances"] # mensile ribilancia meno
assert weekly["turnover_per_year"] > 0
def test_single_sleeve_equals_itself():
s = _const_sleeve("A", 1.0, 0.001)
pf = StrategyPortfolio([s])
combo = pf.combined_daily()
assert np.allclose(combo.values, s.daily().values)
assert pf.weights() == {"A": 1.0}
def test_weights_normalize():
pf = StrategyPortfolio([_const_sleeve("A", 3.0, 0.001), _const_sleeve("B", 1.0, 0.002)])
w = pf.weights()
assert abs(sum(w.values()) - 1.0) < 1e-12
assert abs(w["A"] - 0.75) < 1e-12 and abs(w["B"] - 0.25) < 1e-12
def test_equal_weight_combine():
a, b = _const_sleeve("A", 1.0, 0.001), _const_sleeve("B", 1.0, 0.003)
pf = StrategyPortfolio([a, b])
combo = pf.combined_daily()
assert np.allclose(combo.values, 0.5 * 0.001 + 0.5 * 0.003) # 0.002
def test_to_daily_compounds_intraday():
# due barre da +1% nello stesso giorno -> +2.01% giornaliero
idx = pd.to_datetime(["2020-01-01T00:00", "2020-01-01T12:00"], utc=True)
d = to_daily(pd.Series([0.01, 0.01], index=idx))
assert len(d) == 1 and abs(d.iloc[0] - (1.01 * 1.01 - 1)) < 1e-12
def test_metrics_basic():
idx = pd.date_range("2020-01-01", periods=730, freq="1D", tz="UTC")
m = metrics(pd.Series(0.0005, index=idx)) # ritorno costante positivo
assert m["ret"] > 0 and m["maxdd"] == 0.0 and m["n"] == 730
def test_outer_join_renormalizes_late_sleeve():
# sleeve con date d'inizio diverse: prima parte A da solo (peso rinormalizzato a 1),
# poi A+B (pesi 0.7/0.3). Il portafoglio NON si tronca alla finestra comune.
idxA = pd.date_range("2020-01-01", periods=120, freq="1D", tz="UTC")
idxB = pd.date_range("2020-02-15", periods=60, freq="1D", tz="UTC")
A = Sleeve("A", 0.7, lambda: pd.Series(0.001, index=idxA))
B = Sleeve("B", 0.3, lambda: pd.Series(0.003, index=idxB))
combo = StrategyPortfolio([A, B]).combined_daily()
assert abs(combo.iloc[0] - 0.001) < 1e-12 # solo A -> 100% A
both = combo[combo.index >= idxB[0]]
assert abs(both.iloc[0] - (0.7 * 0.001 + 0.3 * 0.003)) < 1e-12 # blend rinormalizzato
assert len(combo) == 120 # span completo di A, non tronca
def test_empty_portfolio_raises():
with pytest.raises(ValueError):
StrategyPortfolio([])