Geo::Coordinates::OSGB - Convert coordinates between Lat/Lon and the British National Grid
An implementation of co-ordinate conversion for England, Wales, and Scotland based on formulae and data published by the Ordnance Survey of Great Britain.
2.19
use Geo::Coordinates::OSGB qw(ll_to_grid grid_to_ll); ($easting,$northing) = ll_to_grid($lat,$lon); ($lat,$lon) = grid_to_ll($easting,$northing);
These modules convert accurately between an OSGB national grid reference and coordinates given in latitude and longitude.
In Version 2.10 and above, the default ellipsoid model used is the de facto international standard WGS84. This means that you can take latitude and longitude readings from your GPS receiver, or read them from Wikipedia, or Google Earth, or your car's sat-nav, and use this module to convert them to accurate British National grid references for use with one of the Ordnance Survey's paper maps. And vice versa, of course.
The module is implemented purely in Perl, and should run on any platform with Perl version 5.8 or better.
In this description, the abbreviations `OS' and `OSGB' mean `the Ordnance Survey of Great Britain': the British government agency that produces the standard maps of England, Wales, and Scotland. Any mention of `sheets' or `maps' refers to one or more of the map sheets defined in the accompanying maps module.
This code is written for the British national grid system. It is of no use outside Britain. In fact it's only really useful in the areas covered by the OS's main series of maps, which exclude the Channel Islands and Northern Ireland.
The following functions can be exported from the Geo::Coordinates::OSGB module:
Geo::Coordinates::OSGB
grid_to_ll ll_to_grid
Neither of these is exported by default.
ll_to_grid(lat,lon)
ll_to_grid translates a latitude and longitude pair into a grid easting and northing pair.
ll_to_grid
When called in a list context, ll_to_grid returns the easting and northing as a list of two. When called in a scalar context, it returns a single string with the numbers separated by spaces.
The arguments should be supplied as real numbers representing decimal degrees, like this
my ($e,$n) = ll_to_grid(51.5, -2.1); # (393154.801, 177900.605)
Following the normal mathematical convention, positive arguments mean North or East, negative South or West.
If you have data with degrees, minutes and seconds, you can convert them to decimals like this:
my ($e,$n) = ll_to_grid(51+25/60, 0-5/60-2/3600);
If you have trouble remembering the order of the arguments, or the returned values, note that latitude comes before longitude in the alphabet too, as easting comes before northing. However, since reasonable latitudes for the OSGB are in the range 49 to 61, and reasonable longitudes in the range -9 to +2, ll_to_grid accepts the arguments in either order; if your longitude is larger than your latitude, then the values of the arguments will be silently swapped.
You can also supply the arguments as named keywords (but be sure to use the curly braces so that you pass them as a reference):
my ($e,$n) = ll_to_grid( { lat => 51.5, lon => -2.1 } );
The easting and northing will be returned as the orthogonal distances in metres from the `false point of origin' of the British Grid (which is a point some way to the south-west of the Scilly Isles). The returned pair refers to a point on the usual OSGB grid, which extends from the Scilly Isles in the south west to the Shetlands in the north.
my ($e,$n) = ll_to_grid(51.5, -2.1); # (393154.801, 177900.605) my $s = ll_to_grid(51.5, -2.1); # "393154.801 177900.605"
If the coordinates you supply are in the area covered by the OSTN02 transformation data, then the results will be rounded to 3 decimal places, which corresponds to the nearest millimetre. If they are outside the coverage (which normally means more than a few km off shore) then the conversion is automagically done using a Helmert transformation instead of the OSTN02 data. The results will be rounded to the nearest metre in this case, although you probably should not rely on the results being more accurate than about 5m.
# A point in the sea, to the north-west of Coll my $s = ll_to_grid(56.75,-7); # returns "94471 773206"
The numbers returned may be negative if your latitude and longitude are far enough south and west, but beware that the transformation is less and less accurate or useful the further you get from the British Isles.
If you want the result presented in a more traditional grid reference format you should pass the results to one of the grid formatting routines from Grid.pm. Like this.
my $s = ll_to_grid(51.5, -2.1); # "393154.801 177900.605" $s = format_grid(ll_to_grid(51.5,-2.1)); # "ST 931 779" $s = format_grid_GPS(ll_to_grid(51.5,-2.1)); # "ST 93154 77900" $s = format_grid_map(ll_to_grid(51.5,-2.1)); # "ST 931 779 on A:173, B:156, C:157"
ll_to_grid() also takes an optional argument that sets the ellipsoid model to use. This defaults to `WGS84', the name of the normal model for working with normal GPS coordinates, but if you want to work with the traditional latitude and longitude values printed around the edges of OS maps before 2015 then you should add an optional shape parameter like this:
ll_to_grid()
my ($e, $n) = ll_to_grid(49,-2, {shape => 'OSGB36'});
Incidentally, if you make this call above you will get back (400000,-100000) which are the coordinates of the `true point of origin' of the British grid. You should get back an easting of 400000 for any point with longitude 2W since this is the central meridian used for the OSGB projection. However you will get a slightly different value unless you specify {shape => 'OSGB36'} because the WGS84 meridians are not quite the same as OSGB36.
{shape => 'OSGB36'}
grid_to_ll(e,n)
The routine grid_to_ll() takes an easting and northing pair representing the distance in metres from the `false point of origin' of the OSGB grid and returns a pair of real numbers representing the equivalent longitude and latitude coordinates in the WGS84 model.
grid_to_ll()
Following convention, positive results are North of the equator and East of the prime meridian, negative numbers are South and West. The fractional parts of the results represent decimal fractions of degrees.
No special processing is done in scalar context because there is no obvious assumption about how to round the results. You will just get the length of the list returned, which is 2.
The arguments must be an (easting, northing) pair representing the absolute grid reference in metres from the point of origin. You can get these from a traditional grid reference string by calling parse_grid() first.
parse_grid()
my ($lat, $lon) = grid_to_ll(parse_grid('SM 349 231'))
An optional last argument defines the ellipsoid model to use just as it does for ll_to_grid(). This is only necessary is you are working with an ellipsoid model other than WGS84. Pass the argument as a hash ref with a `shape' key.
my ($lat, $lon) = grid_to_ll(400000, 300000, {shape => 'OSGB36'});
If you like named arguments then you can use a single hash ref for all of them (this is strictly optional):
my ($lat, $lon) = grid_to_ll({ e => 400000, n => 300000, shape => 'OSGB36'});
The results returned will be floating point numbers with the default Perl precision. Unless you are running with long double precision floats you will get 13 decimal places for latitude and 14 places for longitude; but this does not mean that the calculations are accurate to that many places. The OS online conversion tools return decimal degrees to only 6 places. A difference of 1 in the sixth decimal place represents a distance on the ground of about 10 cm. This is probably a good rule of thumb for the reliability of these calculations, but all the available decimal places are returned so that you can choose the rounding that is appropriate for your application. Here's one way to do that:
my ($lat, $lon) = map { sprintf "%.6f", $_ } grid_to_ll(431234, 312653);
set_default_shape(shape)
The default ellipsoid shape used for conversion to and from latitude and longitude is `WGS84' as used in the international GPS system. This default it set every time that you load the module. If you want to process or produce a large number latitude and longitude coordinates in the British Ordnance Survey system (as printed round the edges of OS Landranger and Explorer maps before 2015) you can use set_default_shape('OSGB36'); to set the default shape to OSGB36. This saves you having to add { shape => 'OSGB36' } to every call of ll_to_grid or grid_to_ll.
set_default_shape('OSGB36');
{ shape => 'OSGB36' }
grid_to_ll
You can use set_default_shape('WGS84'); to set the default shape back to WGS84 again when finished with OSGB36 coordinates.
set_default_shape('WGS84');
ll_to_grid_helmert(lat, lon)
You can use this function to do a quicker conversion from WGS84 lat/lon to the OS grid without using the whole OSTN02 data set. The algorithm used is known as a Helmert transformation. This is the usual coordinate conversion algorithm implemented in most consumer-level GPS devices. It is based on parameters supplied by the OS; they suggest that in most of the UK this conversion is accurate to within about 5m.
my ($e, $n) = ll_to_grid_helmert(51.477811, -0.001475); # RO Greenwich
The input must be decimal degrees in the WGS84 model, with latitude first and longitude second. The results are rounded to the nearest whole metre. They can be used with format_grid in the same way as the results from ll_to_grid.
format_grid
This function is called automatically by ll_to_grid if your coordinates are WGS84 and lie outside the OSTN02 polygon.
grid_to_ll_helmert(e,n)
You can use this function to do a quicker conversion from OS grid references to WGS84 latitude and longitude coordinates without using the whole OSTN02 data set. The algorithm used is known as a Helmert transformation. This is the usual coordinate conversion algorithm implemented in most consumer-level GPS devices. It is based on parameters supplied by the OS; they suggest that in most of the UK this conversion is accurate to within about 5m.
my ($lat, $lon) = grid_to_ll_helmert(538885, 177322);
The input must be in metres from false point of origin (as produced by parse_grid) and the results are in decimal degrees using the WGS84 model.
parse_grid
The results are returned with the full Perl precision in the same way as grid_to_ll so that you can choose an appropriate rounding for your needs. Four or five decimal places is probably appropriate in most cases. This represents somewhere between 1 and 10 m on the ground.
This function is called automatically by grid_to_ll if the grid reference you supply lies outside the OSTN02 polygon. (Generally such spots are in the sea). The results are only reliable close to mainland Britain.
get_ostn02_shift_pair(e,n)
This function provides an interface to the OSTN02 data. The input is an easting, northing pair (in metres as usual), and the usual output is another pair, also in metres, representing the easting and northing differences between OSGB36 and WGS84 at this particular grid reference. The values returned are the result of interpolation from the OSTN02 values at the four corners of the relevant square kilometre. For more detail about OSTN02, see Background.pod.
These values are those used to do the accurate conversion at the heart of this module. You don't normally need these, but this interface is provided (a) for debugging and testing and (b) as a way to check whether a point is covered by one of the OSTN02 polygons.
If a particular point is not in one of the polygons, this function will return undef. This feature is used by the by random_grid function in Geo::Coordinates::OSGB::Grid.pm to make sure that the chosen random point is well within the OSTN02 boundary.
undef
random_grid
If you are curious to see the boundaries, you should explore the plot_maps.pl script in the examples directory.
plot_maps.pl
examples
You can import all the functions defined in OSGB.pm with an :all tag.
OSGB.pm
:all
use Geo::Coordinates::OSGB ':all';
use Geo::Coordinates::OSGB qw/ll_to_grid grid_to_ll/; # Latitude and longitude according to the WGS84 model ($lat, $lon) = grid_to_ll($e, $n); # and to go the other way ($e, $n) = ll_to_grid($lat,$lon);
See the test files for more examples of usage.
The formulae supplied by the OS and used for the conversion routines are specifically designed to be close floating-point approximations rather than exact mathematical equivalences. So after round-trips like these:
($lat1,$lon1) = grid_to_ll(ll_to_grid($lat0,$lon0)); ($e1,$n1) = ll_to_grid(grid_to_ll($e0,$n0));
neither $lat1 == $lat0 nor $lon1 == $lon0 nor $e1 == $e0 nor $n1 == $n0 exactly. However the differences should be very small.
$lat1 == $lat0
$lon1 == $lon0
$e1 == $e0
$n1 == $n0
The OS formulae were designed to give an accuracy of about 1 mm of error. This means that you can rely on the third decimal place for grid references and about the seventh or eighth for latitude and longitude (although the OS themselves only provide six decimal places in their results).
For all of England, Wales, Scotland, and the Isle of Man the error will be tiny. All other areas, like Northern Ireland, the Channel Islands or Rockall, and any areas of sea more than a few miles off shore, are outside the coverage of OSTN02, so the simpler, less accurate transformation is used. The OS state that this is accurate to about 5m but that the parameters used are only valid in the reasonably close vicinity of the British Isles.
Not enough testing has been done. I am always grateful for the feedback I get from users, but especially for problem reports that help me to make this a better module.
The only error message you will get from this module is about the ellipsoid shape used for the transformation. If you try to set {shape => 'blah'} the module will croak with a message saying Unknown shape: blah. The shape should be one of the shapes defined: WGS84 or OSGB36.
{shape => 'blah'}
Unknown shape: blah
Should this software not do what you expect, then please first read this documentation, secondly verify that you have installed it correctly and that it passes all the installation tests on your set up, thirdly study the source code to see what it's supposed to be doing, fourthly get in touch to ask me about it.
There is no configuration required either of these modules or your environment. It should work on any recent version of Perl, on any platform.
Perl 5.08 or better.
None known.
Copyright (C) 2002-2017 Toby Thurston
OSTN02 transformation data included in this module is freely available from the Ordnance Survey but remains Crown Copyright (C) 2002
This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
Toby Thurston -- 30 Jul 2017
toby@cpan.org
See Geo::Coordinates::OSGB::Grid for routines to format grid references.
The UK Ordnance Survey's explanations on their web pages.
See Geo::Coordinates::Convert for a general approach (not based on the OSGB).
To install Geo::Coordinates::OSGB, copy and paste the appropriate command in to your terminal.
cpanm
cpanm Geo::Coordinates::OSGB
CPAN shell
perl -MCPAN -e shell install Geo::Coordinates::OSGB
For more information on module installation, please visit the detailed CPAN module installation guide.