FreeDATA/freedata-server/maidenhead.py
2024-04-17 22:49:08 +02:00

94 lines
2.8 KiB
Python

import math
def haversine(lat1, lon1, lat2, lon2):
"""
Calculate the great circle distance in kilometers between two points
on the Earth (specified in decimal degrees).
Parameters:
lat1, lon1: Latitude and longitude of point 1.
lat2, lon2: Latitude and longitude of point 2.
Returns:
float: Distance between the two points in kilometers.
"""
# Radius of the Earth in kilometers. Use 3956 for miles
R = 6371.0
# Convert latitude and longitude from degrees to radians
lat1 = math.radians(lat1)
lon1 = math.radians(lon1)
lat2 = math.radians(lat2)
lon2 = math.radians(lon2)
# Difference in coordinates
dlon = lon2 - lon1
dlat = lat2 - lat1
# Haversine formula
a = math.sin(dlat / 2) ** 2 + math.cos(lat1) * math.cos(lat2) * math.sin(dlon / 2) ** 2
c = 2 * math.atan2(math.sqrt(a), math.sqrt(1 - a))
distance = R * c
return distance
def maidenhead_to_latlon(grid_square):
"""
Convert a Maidenhead locator to latitude and longitude coordinates.
The output coordinates represent the southwestern corner of the grid square.
Parameters:
grid_square (str): The Maidenhead locator.
Returns:
tuple: A tuple containing the latitude and longitude (in that order) of the grid square's center.
"""
if len(grid_square) < 4 or len(grid_square) % 2 != 0:
raise ValueError("Grid square must be at least 4 characters long and an even length.")
grid_square = grid_square.upper()
lon = -180 + (ord(grid_square[0]) - ord('A')) * 20
lat = -90 + (ord(grid_square[1]) - ord('A')) * 10
lon += (int(grid_square[2]) * 2)
lat += int(grid_square[3])
if len(grid_square) >= 6:
lon += (ord(grid_square[4]) - ord('A')) * (5 / 60)
lat += (ord(grid_square[5]) - ord('A')) * (2.5 / 60)
if len(grid_square) == 8:
lon += int(grid_square[6]) * (5 / 600)
lat += int(grid_square[7]) * (2.5 / 600)
# Adjust to the center of the grid square
if len(grid_square) <= 4:
lon += 1
lat += 0.5
elif len(grid_square) == 6:
lon += 2.5 / 60
lat += 1.25 / 60
else:
lon += 2.5 / 600
lat += 1.25 / 600
return lat, lon
def distance_between_locators(locator1, locator2):
"""
Calculate the distance between two Maidenhead locators and return the result as a dictionary.
Parameters:
locator1 (str): The first Maidenhead locator.
locator2 (str): The second Maidenhead locator.
Returns:
dict: A dictionary containing the distances in kilometers and miles.
"""
lat1, lon1 = maidenhead_to_latlon(locator1)
lat2, lon2 = maidenhead_to_latlon(locator2)
km = haversine(lat1, lon1, lat2, lon2)
miles = km * 0.621371
return {'kilometers': km, 'miles': miles}