Merge branch 'master' into feat/search-integration

This commit is contained in:
2026-07-01 15:03:12 +02:00
committed by GitHub
10 changed files with 280 additions and 23 deletions
+1
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@@ -8,6 +8,7 @@ i nie w bazie.
- `POST /api/query``QueryRequest``QueryResponse` - `POST /api/query``QueryRequest``QueryResponse`
- `POST /chart/positions``{when_utc, lat, lon, objects?}` → pozycje obiektów (LOG-01) - `POST /chart/positions``{when_utc, lat, lon, objects?}` → pozycje obiektów (LOG-01)
- `POST /chart/report``{when_utc, lat, lon, limit?}` → wynik obliczeń wyszukany w bazie: z pozycji generuje sygnifikatory (planeta w znaku) i zwraca pasujące interpretacje z warstwy danych (zalążek LOG-16/18/19) - `POST /chart/report``{when_utc, lat, lon, limit?}` → wynik obliczeń wyszukany w bazie: z pozycji generuje sygnifikatory (planeta w znaku) i zwraca pasujące interpretacje z warstwy danych (zalążek LOG-16/18/19)
- `POST /chart/positions``{when_utc, lat, lon, house_system?}` → pełny horoskop: pozycje (LOG-01) + osie i domy (LOG-05). `house_system`: `whole_sign` (dom.) / `equal` / `porphyry`.
- `POST /chart/compare` → jak wyżej → raport różnic dwóch silników (LOG-26; wymaga silnika B) - `POST /chart/compare` → jak wyżej → raport różnic dwóch silników (LOG-26; wymaga silnika B)
- `GET /health` (sprawdza też warstwę bazodanową) - `GET /health` (sprawdza też warstwę bazodanową)
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@@ -0,0 +1,50 @@
"""Złożenie pełnego horoskopu: pozycje + osie + domy (LOG-01 + LOG-05).
Silnik-agnostyczne: potrzebuje tylko `positions()` oraz (dla osi/domów)
`sidereal()`. Jeśli silnik nie umie policzyć czasu gwiazdowego, zwraca same
pozycje.
"""
from __future__ import annotations
from app.engine import houses as H
from app.engine.base import EphemerisEngine
from app.engine.formats import SIGNS, in_sign, norm360, sign_index
from app.engine.models import ChartMoment
def _fmt(name: str, lon: float) -> dict:
return {
"name": name,
"sign": SIGNS[sign_index(lon)],
"in_sign": in_sign(lon),
"decimal": round(norm360(lon), 6),
}
def build_chart(engine: EphemerisEngine, moment: ChartMoment, house_system: str = H.WHOLE_SIGN) -> dict:
positions = engine.positions(moment)
result: dict = {"engine": engine.name, "positions": [p.as_dict() for p in positions]}
if not hasattr(engine, "sidereal"):
return result
ramc, eps = engine.sidereal(moment)
asc = H.compute_asc(ramc, eps, moment.lat)
mc = H.compute_mc(ramc, eps)
system = house_system if house_system in H.SYSTEMS else H.WHOLE_SIGN
cusp_list = H.cusps(asc, mc, system)
result["house_system"] = system
result["angles"] = {
"Asc": _fmt("Asc", asc),
"MC": _fmt("MC", mc),
"Dsc": _fmt("Dsc", norm360(asc + 180.0)),
"IC": _fmt("IC", norm360(mc + 180.0)),
}
result["cusps"] = [
{"house": i + 1, "sign": SIGNS[sign_index(c)], "in_sign": in_sign(c)}
for i, c in enumerate(cusp_list)
]
for pdict, obj in zip(result["positions"], positions):
pdict["house"] = H.assign_house(obj.longitude, cusp_list)
return result
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@@ -0,0 +1,77 @@
"""Osie i domy — czysta matematyka sferyczna (LOG-05).
Bezstanowe funkcje: z lokalnego czasu gwiazdowego (RAMC), nachylenia ekliptyki
(ε) i szerokości geograficznej (φ) wyliczają Ascendent i MC, a stąd cusps domów
dla prostych systemów (Whole Sign, Equal, Porphyry). Niezależne od silnika —
silnik dostarcza tylko RAMC i ε.
"""
from __future__ import annotations
import math
from app.engine.formats import SIGN_ABBR, norm360, sign_index # noqa: F401
WHOLE_SIGN = "whole_sign"
EQUAL = "equal"
PORPHYRY = "porphyry"
SYSTEMS = (WHOLE_SIGN, EQUAL, PORPHYRY)
def mean_obliquity(tt_jd: float) -> float:
"""Średnie nachylenie ekliptyki [°] dla daty (Julian TT). Wystarcza do domów."""
t = (tt_jd - 2451545.0) / 36525.0
arcsec = 84381.448 - 46.8150 * t - 0.00059 * t * t + 0.001813 * t ** 3
return arcsec / 3600.0
def compute_mc(ramc_deg: float, eps_deg: float) -> float:
r, e = math.radians(ramc_deg), math.radians(eps_deg)
mc = math.atan2(math.sin(r), math.cos(r) * math.cos(e))
return norm360(math.degrees(mc))
def compute_asc(ramc_deg: float, eps_deg: float, lat_deg: float) -> float:
r, e, phi = math.radians(ramc_deg), math.radians(eps_deg), math.radians(lat_deg)
asc = math.atan2(
math.cos(r),
-(math.sin(r) * math.cos(e) + math.tan(phi) * math.sin(e)),
)
return norm360(math.degrees(asc))
def _trisect(a: float, b: float) -> tuple[float, float]:
"""Dwa punkty dzielące łuk a→b (w kierunku zodiaku) na trzy równe części."""
span = (b - a) % 360.0
return norm360(a + span / 3.0), norm360(a + 2.0 * span / 3.0)
def cusps(asc: float, mc: float, system: str) -> list[float]:
"""Zwraca 12 cusps (długości) domów 1..12."""
if system == WHOLE_SIGN:
start = sign_index(asc) * 30.0
return [norm360(start + 30.0 * i) for i in range(12)]
if system == EQUAL:
return [norm360(asc + 30.0 * i) for i in range(12)]
if system == PORPHYRY:
dsc, ic = norm360(asc + 180.0), norm360(mc + 180.0)
c = [0.0] * 12
c[0], c[3], c[6], c[9] = asc, ic, dsc, mc
c[1], c[2] = _trisect(asc, ic) # domy 2,3
c[4], c[5] = _trisect(ic, dsc) # domy 5,6
c[7], c[8] = _trisect(dsc, mc) # domy 8,9
c[10], c[11] = _trisect(mc, asc) # domy 11,12
return c
raise ValueError(f"nieznany system domów: {system}")
def assign_house(lon: float, cusp_list: list[float]) -> int:
"""Numer domu (1..12), w którym leży dana długość ekliptyczna."""
lon = norm360(lon)
for i in range(12):
start = cusp_list[i]
end = cusp_list[(i + 1) % 12]
span = (end - start) % 360.0
offset = (lon - start) % 360.0
if offset < span:
return i + 1
return 12
@@ -88,5 +88,17 @@ class SkyfieldEngine(EphemerisEngine):
) )
return out return out
def sidereal(self, moment: ChartMoment) -> tuple[float, float]:
"""(RAMC, ε) w stopniach — lokalny apparent sidereal time i nachylenie ekliptyki.
Materiał wejściowy do osi i domów (LOG-05). RAMC = GAST·15 + długość geo.
"""
from app.engine.houses import mean_obliquity
t = self.ts.from_datetime(moment.when_utc)
ramc = norm360(t.gast * 15.0 + moment.lon)
eps = mean_obliquity(t.tt)
return ramc, eps
def health(self) -> dict: def health(self) -> dict:
return {"engine": self.name, "status": "ok", "kernel": self.kernel} return {"engine": self.name, "status": "ok", "kernel": self.kernel}
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@@ -37,6 +37,7 @@ class PositionsRequest(BaseModel):
lat: float = 0.0 lat: float = 0.0
lon: float = 0.0 lon: float = 0.0
objects: list[str] | None = None objects: list[str] | None = None
house_system: str = "whole_sign" # whole_sign | equal | porphyry
@app.post("/api/query", response_model=QueryResponse) @app.post("/api/query", response_model=QueryResponse)
@@ -49,13 +50,13 @@ def query(req: QueryRequest) -> QueryResponse:
@app.post("/chart/positions") @app.post("/chart/positions")
def chart_positions(req: PositionsRequest) -> dict: def chart_positions(req: PositionsRequest) -> dict:
"""Pozycje obiektów dla danego momentu (LOG-01), liczone aktywnym silnikiem.""" """Pełny horoskop: pozycje (LOG-01) + osie i domy (LOG-05), aktywnym silnikiem."""
from app.engine.chart import build_chart
from app.engine.models import ChartMoment from app.engine.models import ChartMoment
engine = get_engine() engine = get_engine()
moment = ChartMoment(when_utc=req.when_utc, lat=req.lat, lon=req.lon) moment = ChartMoment(when_utc=req.when_utc, lat=req.lat, lon=req.lon)
positions = engine.positions(moment, req.objects) return build_chart(engine, moment, req.house_system)
return {"engine": engine.name, "positions": [p.as_dict() for p in positions]}
@app.post("/chart/compare") @app.post("/chart/compare")
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@@ -0,0 +1,27 @@
"""Integracja: pełny horoskop (pozycje + osie + domy) przez silnik (LOG-01+LOG-05).
Waliduje względem astro.com dla horoskopu referencyjnego.
"""
from app.engine.chart import build_chart
def test_chart_angles_match_reference(own_engine, reference_moment):
chart = build_chart(own_engine, reference_moment, "whole_sign")
assert chart["angles"]["Asc"]["sign"] == "Cancer"
assert chart["angles"]["MC"]["sign"] == "Pisces"
def test_chart_house_assignments_match_reference(own_engine, reference_moment):
chart = build_chart(own_engine, reference_moment, "whole_sign")
by = {p["name"]: p for p in chart["positions"]}
expected = {"Sun": 11, "Moon": 11, "Mercury": 10, "Venus": 10, "Mars": 5,
"Jupiter": 7, "Saturn": 5, "Uranus": 6, "Neptune": 7, "Pluto": 5}
for name, house in expected.items():
assert by[name]["house"] == house, f"{name}: dom {by[name]['house']} != {house}"
def test_house_systems_available(own_engine, reference_moment):
for system in ("whole_sign", "equal", "porphyry"):
chart = build_chart(own_engine, reference_moment, system)
assert chart["house_system"] == system
assert len(chart["cusps"]) == 12
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@@ -0,0 +1,41 @@
"""Testy osi i domów — czysta matematyka (LOG-05, bez efemeryd)."""
from app.engine import houses as H
# RAMC i ε policzone Skyfieldem dla horoskopu referencyjnego (30.04.1984, Warszawa)
RAMC, EPS, LAT = 353.1968, 23.44133, 52.2333
def _near(a, b, tol=0.05):
return abs(((a - b + 180) % 360) - 180) < tol
def test_asc_mc_match_reference():
asc = H.compute_asc(RAMC, EPS, LAT)
mc = H.compute_mc(RAMC, EPS)
assert _near(asc, 112.18) # Cancer 22°10' (astro.com)
assert _near(mc, 352.59) # Pisces 22°35'
def test_whole_sign_starts_on_sign_boundary():
cusps = H.cusps(112.18, 352.59, H.WHOLE_SIGN)
assert cusps[0] == 90.0 # dom 1 = 0° Raka
assert cusps[1] == 120.0
def test_equal_cusps_are_30_apart_from_asc():
cusps = H.cusps(112.18, 352.59, H.EQUAL)
assert abs(cusps[0] - 112.18) < 1e-9
assert abs(cusps[1] - 142.18) < 1e-9
def test_porphyry_angles_on_cusps():
cusps = H.cusps(112.18, 352.59, H.PORPHYRY)
assert abs(cusps[0] - 112.18) < 1e-9 # Asc = dom 1
assert abs(cusps[9] - 352.59) < 1e-9 # MC = dom 10
assert abs(cusps[6] - (112.18 + 180) % 360) < 1e-9 # Dsc = dom 7
def test_assign_house_whole_sign():
cusps = H.cusps(112.18, 352.59, H.WHOLE_SIGN) # dom 1 = Rak (90120°)
assert H.assign_house(100.0, cusps) == 1 # w Raku
assert H.assign_house(40.0, cusps) == 11 # Byk -> 11. dom
@@ -24,10 +24,21 @@ class LogicClient:
return r.json() return r.json()
def positions( def positions(
self, when_utc_iso: str, lat: float, lon: float, objects: list[str] | None = None self,
when_utc_iso: str,
lat: float,
lon: float,
objects: list[str] | None = None,
house_system: str = "whole_sign",
) -> dict[str, Any]: ) -> dict[str, Any]:
"""Pozycje obiektów dla danego momentu — woła logic /chart/positions.""" """Pełny horoskop dla danego momentu — woła logic /chart/positions."""
payload = {"when_utc": when_utc_iso, "lat": lat, "lon": lon, "objects": objects} payload = {
"when_utc": when_utc_iso,
"lat": lat,
"lon": lon,
"objects": objects,
"house_system": house_system,
}
with httpx.Client(timeout=settings.http_timeout) as client: with httpx.Client(timeout=settings.http_timeout) as client:
r = client.post(f"{self.base_url}/chart/positions", json=payload) r = client.post(f"{self.base_url}/chart/positions", json=payload)
r.raise_for_status() r.raise_for_status()
+6 -2
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@@ -59,13 +59,17 @@ def chart_compute(
tz_offset: float = Form(0.0), tz_offset: float = Form(0.0),
lat: float = Form(0.0), lat: float = Form(0.0),
lon: float = Form(0.0), lon: float = Form(0.0),
house_system: str = Form("whole_sign"),
): ):
form = {"date": date, "time": time, "tz_offset": tz_offset, "lat": lat, "lon": lon} form = {"date": date, "time": time, "tz_offset": tz_offset,
"lat": lat, "lon": lon, "house_system": house_system}
ctx: dict = {"form": form, "result": None, "error": None, "moment": None} ctx: dict = {"form": form, "result": None, "error": None, "moment": None}
try: try:
iso_utc, label = _build_utc(date, time, tz_offset) iso_utc, label = _build_utc(date, time, tz_offset)
ctx["moment"] = label ctx["moment"] = label
ctx["result"] = logic.positions(when_utc_iso=iso_utc, lat=lat, lon=lon) ctx["result"] = logic.positions(
when_utc_iso=iso_utc, lat=lat, lon=lon, house_system=house_system
)
except (httpx.HTTPError,) as e: except (httpx.HTTPError,) as e:
ctx["error"] = _logic_error(e) ctx["error"] = _logic_error(e)
except ValueError as e: except ValueError as e:
+48 -15
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@@ -3,7 +3,7 @@
{% block nav_chart %}active{% endblock %} {% block nav_chart %}active{% endblock %}
{% block content %} {% block content %}
<p class="sub">Wpisz podstawowe dane momentu — program policzy pozycje obiektów (silnik efemeryd warstwy logicznej).</p> <p class="sub">Wpisz dane momentu i miejsca — program policzy pozycje obiektów, osie i domy (silnik efemeryd warstwy logicznej).</p>
<form method="post" action="/"> <form method="post" action="/">
<div class="grid"> <div class="grid">
@@ -17,20 +17,25 @@
<input type="number" name="tz_offset" step="0.25" value="{{ form.tz_offset if form.tz_offset is not none else 0 }}"> <input type="number" name="tz_offset" step="0.25" value="{{ form.tz_offset if form.tz_offset is not none else 0 }}">
</label> </label>
</div> </div>
<details class="loc"> <div class="grid">
<summary>Lokalizacja (opcjonalnie — przyda się później do osi i domów)</summary> <label>Szerokość (lat, + N)
<div class="grid"> <input type="number" name="lat" step="0.0001" value="{{ form.lat if form.lat is not none else 0 }}">
<label>Szerokość (lat) </label>
<input type="number" name="lat" step="0.0001" value="{{ form.lat if form.lat is not none else 0 }}"> <label>Długość (lon, + E)
</label> <input type="number" name="lon" step="0.0001" value="{{ form.lon if form.lon is not none else 0 }}">
<label>Długość (lon, + na wschód) </label>
<input type="number" name="lon" step="0.0001" value="{{ form.lon if form.lon is not none else 0 }}"> <label>System domów
</label> <select name="house_system">
</div> {% set hs = form.house_system or 'whole_sign' %}
</details> <option value="whole_sign" {{ 'selected' if hs == 'whole_sign' else '' }}>Whole Sign</option>
<option value="equal" {{ 'selected' if hs == 'equal' else '' }}>Equal</option>
<option value="porphyry" {{ 'selected' if hs == 'porphyry' else '' }}>Porphyry</option>
</select>
</label>
</div>
<div class="actions"> <div class="actions">
<button type="button" id="nowBtn" class="ghost">Tu i teraz</button> <button type="button" id="nowBtn" class="ghost">Tu i teraz</button>
<button type="submit">Policz pozycje</button> <button type="submit">Policz horoskop</button>
</div> </div>
</form> </form>
@@ -42,12 +47,26 @@
<div class="meta"> <div class="meta">
Silnik: <strong>{{ result.engine }}</strong> · Silnik: <strong>{{ result.engine }}</strong> ·
obiektów: {{ result.positions | length }} obiektów: {{ result.positions | length }}
{% if result.house_system %}· domy: {{ result.house_system }}{% endif %}
{% if moment %}· moment: {{ moment }}{% endif %} {% if moment %}· moment: {{ moment }}{% endif %}
</div> </div>
{% if result.angles %}
<table class="angles">
<thead><tr><th></th><th>Znak</th><th>W znaku</th></tr></thead>
<tbody>
{% for key in ["Asc", "MC", "Dsc", "IC"] %}
{% set a = result.angles[key] %}
<tr><td>{{ a.name }}</td><td>{{ a.sign }}</td><td class="mono">{{ a.in_sign }}</td></tr>
{% endfor %}
</tbody>
</table>
{% endif %}
<table> <table>
<thead> <thead>
<tr> <tr>
<th>Obiekt</th><th>Znak</th><th>W znaku</th><th>Absolutna</th><th>Kier.</th><th>Prędkość °/d</th> <th>Obiekt</th><th>Znak</th><th>W znaku</th><th>Dom</th><th>Kier.</th><th>Prędkość °/d</th>
</tr> </tr>
</thead> </thead>
<tbody> <tbody>
@@ -56,13 +75,27 @@
<td>{{ p.name }}</td> <td>{{ p.name }}</td>
<td>{{ p.sign }}</td> <td>{{ p.sign }}</td>
<td class="mono">{{ p.in_sign }}</td> <td class="mono">{{ p.in_sign }}</td>
<td class="mono">{{ p.absolute }}</td> <td>{{ p.house if p.house is defined else '—' }}</td>
<td class="{{ 'retro' if p.direction == 'Rx' else '' }}">{{ p.direction }}</td> <td class="{{ 'retro' if p.direction == 'Rx' else '' }}">{{ p.direction }}</td>
<td class="mono">{{ '%+.4f' | format(p.speed) }}</td> <td class="mono">{{ '%+.4f' | format(p.speed) }}</td>
</tr> </tr>
{% endfor %} {% endfor %}
</tbody> </tbody>
</table> </table>
{% if result.cusps %}
<details class="loc">
<summary>Cusps domów ({{ result.house_system }})</summary>
<table>
<thead><tr><th>Dom</th><th>Znak</th><th>Cusp</th></tr></thead>
<tbody>
{% for c in result.cusps %}
<tr><td>{{ c.house }}</td><td>{{ c.sign }}</td><td class="mono">{{ c.in_sign }}</td></tr>
{% endfor %}
</tbody>
</table>
</details>
{% endif %}
{% endif %} {% endif %}
<script> <script>