Files
astrololo/services/logic/tests/test_aspects.py
T
gitea 8d579de34a Aspekty: applying/separating (A/S) + bonus siły dla aplikujących (LOG-06)
- aspects.py: _is_applying — odchyłka od dokładnego kąta teraz vs po małym
  kroku czasu (prędkość·dt, dt=0,01 doby by szybki Księżyc nie przeskoczył
  dokładności); aspekt niesie applying (bool) i "as": A/S. Bez prędkości —
  brak flagi (None).
- scoring: aspekt aplikacyjny silniejszy (APPLYING_BONUS 1.15) — zgodnie z
  notatkami projektu ("impact considered more powerful").
- significators: faseta aspektu niesie applying, etykieta z sufiksem (A)/(S).
- widok Horoskop: kolumna A/S w tabeli aspektów (tooltip z objaśnieniem).

Walidacja: flagi A/S wszystkich 16 aspektów horoskopu referencyjnego
(30.04.1984, Warszawa) zgodne z tabelą astro-seek z notes3 (test regresyjny
REFERENCE_AS). 45 testów przechodzi.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-07-07 19:22:51 +02:00

91 lines
3.3 KiB
Python

"""Testy aspektów (LOG-06) — czysta matematyka."""
from app.engine.aspects import find_aspects, separation
def test_separation_wraparound():
assert separation(10, 350) == 20
assert separation(0, 180) == 180
assert separation(0, 90) == 90
def test_conjunction_and_opposition():
pos = [
{"name": "Sun", "decimal": 10.0},
{"name": "Moon", "decimal": 12.0}, # 2° od Słońca -> koniunkcja
{"name": "Mars", "decimal": 190.0}, # 180° od Słońca -> opozycja
]
pairs = {(a["obj1"], a["obj2"], a["aspect"]) for a in find_aspects(pos)}
assert ("Sun", "Moon", "conjunction") in pairs
assert ("Sun", "Mars", "opposition") in pairs
def test_orb_limit_excludes_wide():
pos = [{"name": "Mercury", "decimal": 0.0}, {"name": "Venus", "decimal": 100.0}]
assert find_aspects(pos, orb=8.0, luminary_bonus=0.0) == []
def test_luminary_bonus_widens_orb():
# 99.5° -> 9.5° od kwadratury; z bonusem luminarza (8+2) mieści się
pos = [{"name": "Sun", "decimal": 0.0}, {"name": "Saturn", "decimal": 99.5}]
assert any(a["aspect"] == "square" for a in find_aspects(pos))
def test_one_aspect_per_pair():
pos = [{"name": "Sun", "decimal": 0.0}, {"name": "Moon", "decimal": 2.0}]
assert len(find_aspects(pos)) == 1
def test_applying_when_faster_body_catches_up():
# Księżyc 5° za Słońcem, szybszy -> koniunkcja aplikacyjna
pos = [
{"name": "Sun", "decimal": 40.0, "speed": 0.96},
{"name": "Moon", "decimal": 35.0, "speed": 13.0},
]
a = find_aspects(pos)[0]
assert a["applying"] is True and a["as"] == "A"
def test_separating_when_moving_apart():
# Księżyc 5° przed Słońcem i szybszy -> koniunkcja separacyjna
pos = [
{"name": "Sun", "decimal": 40.0, "speed": 0.96},
{"name": "Moon", "decimal": 45.0, "speed": 13.0},
]
a = find_aspects(pos)[0]
assert a["applying"] is False and a["as"] == "S"
def test_no_as_flag_without_speeds():
pos = [{"name": "Sun", "decimal": 0.0}, {"name": "Moon", "decimal": 2.0}]
assert "as" not in find_aspects(pos)[0]
# Referencja A/S z notes3 (astro-seek) dla horoskopu 30.04.1984 07:35 UT, Warszawa.
REFERENCE_AS = {
("Sun", "Moon", "conjunction"): "A",
("Sun", "Jupiter", "trine"): "A",
("Sun", "Saturn", "opposition"): "A",
("Sun", "Neptune", "trine"): "S",
("Sun", "Pluto", "opposition"): "S",
("Moon", "Mercury", "conjunction"): "S",
("Moon", "Venus", "conjunction"): "S",
("Moon", "Neptune", "trine"): "A",
("Moon", "Pluto", "opposition"): "S",
("Mercury", "Venus", "conjunction"): "S",
("Mercury", "Neptune", "trine"): "S",
("Mercury", "Pluto", "opposition"): "S",
("Venus", "Neptune", "trine"): "A",
("Venus", "Pluto", "opposition"): "A",
("Jupiter", "Saturn", "sextile"): "A",
("Neptune", "Pluto", "sextile"): "S",
}
def test_applying_separating_matches_astroseek_reference(own_engine, reference_moment):
from app.engine.chart import build_chart
chart = build_chart(own_engine, reference_moment)
got = {(a["obj1"], a["obj2"], a["aspect"]): a.get("as") for a in chart["aspects"]}
mismatches = {k: (got.get(k), v) for k, v in REFERENCE_AS.items() if got.get(k) != v}
assert not mismatches, f"rozbieżności A/S vs astro-seek: {mismatches}"