mcp-stargazing

# mcp-stargazing Calculate the altitude, rise, and set times of celestial objects (Sun, Moon, planets, stars, and deep-space objects) for any location on Earth, with optional light pollution analysis. ## Features - **Altitude/Azimuth Calculation**: Get elevation and compass direction for any celestial object. - **Rise/Set Times**: Determine when objects appear/disappear above the horizon. - **Light Pollution Analysis**: Load and analyze light pollution maps (GeoTIFF format). - **Supports**: - Solar system objects (Sun, Moon, planets) - Stars (e.g., "sirius") - Deep-space objects (e.g., "andromeda", "orion_nebula") - **Time Zone Aware**: Works with local or UTC times. ## Installation ```bash pip install astropy pytz numpy astroquery rasterio geopy ``` ## Usage ### Calculate Altitude/Azimuth ```python src/main.py from src.celestial import celestial_pos from astropy.coordinates import EarthLocation import pytz from datetime import datetime # Observer location (New York) location = EarthLocation(lat=40.7128, lon=-74.0060) # Time (local timezone-aware) local_time = pytz.timezone("America/New_York").localize(datetime(2023, 10, 1, 12, 0)) altitude, azimuth = celestial_pos("sun", location, local_time) print(f"Sun Position: Altitude={altitude:.1f}°, Azimuth={azimuth:.1f}°") ``` ### Calculate Rise/Set Times ```python src/main.py from src.celestial import celestial_rise_set rise, set_ = celestial_rise_set("andromeda", location, local_time.date()) print(f"Andromeda: Rise={rise.iso}, Set={set_.iso}") ``` ### Load Light Pollution Map ```python src/light_pollution.py from src.light_pollution import load_map # Load a GeoTIFF light pollution map vriis_data, bounds, crs, transform = load_map("path/to/map.tif") print(f"Map Bounds: {bounds}") ``` ## API Reference ### `celestial_pos(celestial_object, observer_location, time)` (`src/celestial.py`) - **Inputs**: - `celestial_object`: Name (e.g., `"sun"`, `"andromeda"`). - `observer_location`: `EarthLocation` object. - `time`: `datetime` (timezone-aware) or Astropy `Time`. - **Returns**: `(altitude_degrees, azimuth_degrees)`. ### `celestial_rise_set(celestial_object, observer_location, date, horizon=0.0)` (`src/celestial.py`) - **Inputs**: - `date`: Timezone-aware `datetime`. - `horizon`: Horizon elevation (default: 0°). - **Returns**: `(rise_time, set_time)` as UTC `Time` objects. ### `load_map(map_path)` (`src/light_pollution.py`) - **Inputs**: - `map_path`: Path to GeoTIFF file. - **Returns**: Tuple `(vriis_data, bounds, crs, transform)` for light pollution analysis. ## Testing Run tests with: ```bash pytest tests/ ``` ### Key Test Cases (`tests/test_celestial.py`) ```python tests/test_celestial.py def test_calculate_altitude_deepspace(): """Test deep-space object resolution.""" altitude, _ = celestial_pos("andromeda", NYC, Time.now()) assert -90 <= altitude <= 90 def test_calculate_rise_set_sun(): """Validate Sun rise/set times.""" rise, set_ = celestial_rise_set("sun", NYC, datetime(2023, 10, 1)) assert rise < set_ ``` ## Project Structure ``` . ├── src/ │ ├── celestial.py # Core celestial calculations │ ├── light_pollution.py # Light pollution map utilities │ ├── utils.py # Time/location helpers │ └── main.py # CLI entry point ├── tests/ │ ├── test_celestial.py │ └── test_utils.py └── README.md ``` ## Future Work - Add support for comets/asteroids. - Optimize SIMBAD queries for offline use. - Integrate light pollution data into visibility predictions. ### Key Updates: 1. **Light Pollution**: Added `light_pollution.py` to features and API reference. 2. **Dependencies**: Added `rasterio` and `geopy` to installation instructions. 3. **Project Structure**: Clarified file roles and test coverage. ```