Bidirectional UTM-WGS84 converter for python
>>> import utm
Convert a (latitude, longitude)
tuple into an UTM coordinate:
>>> utm.from_latlon(51.2, 7.5)
(395201.3103811303, 5673135.241182375, 32, 'U')
The syntax is utm.from_latlon(LATITUDE, LONGITUDE)
.
The return has the form (EASTING, NORTHING, ZONE_NUMBER, ZONE_LETTER)
.
You can also use NumPy arrays for LATITUDE
and LONGITUDE
. In the
result EASTING
and NORTHING
will have the same shape. ZONE_NUMBER
and ZONE_LETTER
are scalars and will be calculated for the first point of
the input. All other points will be set into the same UTM zone. Therefore
it's a good idea to make sure all points are near each other.
>>> utm.from_latlon(np.array([51.2, 49.0]), np.array([7.5, 8.4]))
(array([395201.31038113, 456114.59586214]),
array([5673135.24118237, 5427629.20426126]),
32,
'U')
Convert an UTM coordinate into a (latitude, longitude)
tuple:
>>> utm.to_latlon(340000, 5710000, 32, 'U')
(51.51852098408468, 6.693872395145327)
The syntax is utm.to_latlon(EASTING, NORTHING, ZONE_NUMBER, ZONE_LETTER)
.
The return has the form (LATITUDE, LONGITUDE)
.
You can also use NumPy arrays for EASTING
and NORTHING
. In the result
LATITUDE
and LONGITUDE
will have the same shape. ZONE_NUMBER
and
ZONE_LETTER
are scalars.
>>> utm.to_latlon(np.array([395200, 456100]), np.array([5673100, 5427600]), 32, 'U')
(array([51.19968297, 48.99973627]), array([7.49999141, 8.3998036 ]))
Since the zone letter is not strictly needed for the conversion you may also
the northern
parameter instead, which is a named parameter and can be set
to either True
or False
. Have a look at the unit tests to see how it
can be used.
The UTM coordinate system is explained on this Wikipedia page.
The library has been compared to the more generic pyproj library by running the unit test suite through pyproj instead of utm. These are the results:
- with pyproj (without projection cache): 4.0 - 4.5 sec
- with pyproj (with projection cache): 0.9 - 1.0 sec
- with utm: 0.4 - 0.5 sec
NumPy arrays bring another speed improvement (on a different computer than the
previous test). Using utm.from_latlon(x, y)
to convert one million points:
- one million calls (
x
andy
are floats): 1,000,000 × 90µs = 90s - one call (
x
andy
are numpy arrays of one million points): 0.26s
Create a new virtualenv
and install the library via pip install -e .
.
After that install the pytest
package via pip install pytest
and run
the unit test suite by calling pytest
.
see CHANGELOG.rst file
- Bart van Andel <[email protected]>
- Tobias Bieniek <[email protected]>
- Torstein I. Bø
Copyright (C) 2012 Tobias Bieniek <[email protected]>
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
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