Terrestrial coordinate systems and geodetic calculations.

Version on this page:0.0.6
LTS Haskell 22.26:0.1.2
Stackage Nightly 2024-06-21:0.1.2
Latest on Hackage:0.1.2

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BSD-3-Clause licensed and maintained by Paul Johnson
This version can be pinned in stack with:geodetics-0.0.6@sha256:9d129fc8d6a0460079a1bac15b2711a4e867e8e99230b6696d052f95c90f7a05,2407


Haskell library of data types and calculations for positions on planet Earth

This library provides “geodetic” positions. That is, latitude, longitude and altitude on a specified Terrestrial Reference Frame (TRF). The basic TRF is the WGS84, which is the one used by GPS and Google Earth. Others can be added by describing the underlying ellipsoid and the difference in angle and centre with WGS84, and a position in one TRF can be transformed into another. Given two points in the same TRF you can find the shortest distance between them and the bearing from one to the other.

Once you have a geodetic position defined you can project it onto a flat plane, or Grid. At present Transverse Mercator and Oblique Stereographic grids are provided. More can be added by defining new instances of the Grid typeclass: see “AddingProjections.txt” for detais.

The Paths module defines a path as a parametric function of distance that returns a position and a bearing. Given two paths you can find their intersection using a fast iterative algorithm.

Release Notes

Version 0.0.2: Tided up cabal file and removed spurious dependency on Parsec.

Version 0.0.3: Updated for Haskell Platform 2014.2.0.0 and GHC 7.8.3. Fixed some minor documentation issues.

Version 0.0.4: Updated for Dimensional 1.0.

Version 0.0.5: Fixed bug in Monoid instance for Helmert. Created Semigroup instance for Helmert.

Version 0.0.6: Prevent attempted building on GHC 7.8 (it doesn’t work) and fix the build on 7.10 with a conditional semigroups dependency