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- #!/usr/bin/env python3
- """Generate a natal chart PNG for Donald Trump."""
- import asyncio
- import sys
- import os
- import traceback
- sys.path.insert(0, os.path.join(os.path.dirname(__file__), "src"))
- from astro_mcp.ephemeris_client import call_sky_state, extract_bodies, extract_houses, extract_angles
- from astro_mcp import astrology
- from astro_mcp.chart_renderer import render_natal_wheel
- # Trump's birth data
- BIRTH_DATETIME = "1946-06-14T10:54:00-04:00"
- LATITUDE = 40.6501
- LONGITUDE = -73.7936
- ELEVATION = 10.0
- HOUSE_SYSTEM = "placidus"
- async def main():
- print("Calling ephemeris for Trump's birth data...")
- sys.stdout.flush()
- try:
- sky = await call_sky_state(
- datetime=BIRTH_DATETIME,
- lat=LATITUDE,
- lon=LONGITUDE,
- elevation=ELEVATION,
- geocentric=True,
- house_system=HOUSE_SYSTEM,
- )
- except Exception as e:
- traceback.print_exc()
- sys.exit(1)
- if "error" in sky:
- print(f"ERROR: {sky['error']}")
- sys.exit(1)
- raw_bodies = extract_bodies(sky)
- houses = extract_houses(sky)
- angles = extract_angles(sky)
- print(f"Got {len(raw_bodies)} bodies, {len(houses)} houses")
- sys.stdout.flush()
- # Build planet list
- planets = []
- for body in raw_bodies:
- ecl_lon = body.get("ecliptic_lon", 0.0)
- ecl_lat = body.get("ecliptic_lat", 0.0)
- speed_lon = body.get("speed_lon")
- zodiac = astrology.ecliptic_to_zodiac(ecl_lon)
- house = astrology.get_house_placement(ecl_lon, houses)
- planets.append({
- "body": body["body"],
- "sign": zodiac["sign"],
- "sign_abbreviation": zodiac["abbreviation"],
- "degree_within_sign": zodiac["degree"],
- "absolute_lon": zodiac["absolute_lon"],
- "ecliptic_lat": ecl_lat,
- "distance_au": body.get("distance_au", 0.0),
- "house": house,
- "retrograde": astrology.is_retrograde(speed_lon),
- })
- # Calculate aspects
- speed_lookup = {b["body"]: b.get("speed_lon") for b in raw_bodies}
- aspect_bodies = [
- {"name": p["body"], "lon": p["absolute_lon"], "speed_lon": speed_lookup.get(p["body"])}
- for p in planets
- ]
- aspects = astrology.compute_aspects(aspect_bodies, None)
- formatted_aspects = []
- for asp in aspects:
- formatted_aspects.append({
- "body1": asp["body1"],
- "body2": asp["body2"],
- "aspect": asp["aspect"],
- "orb": asp["orb"],
- "applying": asp["applying"],
- "exactness": asp["exactness"],
- })
- chart_data = {
- "input": {
- "birth_datetime": BIRTH_DATETIME,
- "latitude": LATITUDE,
- "longitude": LONGITUDE,
- "elevation": ELEVATION,
- "house_system": HOUSE_SYSTEM,
- "name": "Donald Trump",
- "birthplace": "New York, NY",
- },
- "chart_type": "natal",
- "planets": planets,
- "houses": houses,
- "aspects": formatted_aspects,
- "angles": angles,
- }
- print("Rendering natal wheel (bw, size=700)...")
- sys.stdout.flush()
- svg = render_natal_wheel(
- chart_data,
- style="modern",
- color_mode="bw",
- size=700,
- table_position="none",
- include_planets=False,
- include_houses=False,
- title="Donald Trump",
- )
- # Write SVG
- svg_path = "/home/shared/trump_natal_bw.svg"
- with open(svg_path, "w") as f:
- f.write(svg)
- print(f"SVG written to {svg_path}")
- # Convert to PNG
- import cairosvg
- png_path = "/home/shared/trump_natal_bw.png"
- cairosvg.svg2png(url=svg_path, write_to=png_path, scale=2)
- print(f"PNG written to {png_path}")
- # Print chart info
- asc = angles.get("ascendant", {})
- mc = angles.get("midheaven", {})
- print(f"\nASC: {asc.get('sign')} {asc.get('degree', 0):.2f}°")
- print(f"MC: {mc.get('sign')} {mc.get('degree', 0):.2f}°")
- print(f"\nPlanets:")
- for p in planets:
- retro = " Rx" if p["retrograde"] else ""
- print(f" {p['body']:12s} {p['sign']:12s} {p['degree_within_sign']:6.2f}° H{p['house']}{retro}")
- print(f"\nAspects ({len(formatted_aspects)}):")
- for a in formatted_aspects[:20]:
- print(f" {a['body1']:10s} {a['aspect']:12s} {a['body2']:10s} orb={a['orb']:.2f}°")
- asyncio.run(main())
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