NAME Geo::LatLon2Place - convert latitude and longitude to nearest place SYNOPSIS use Geo::LatLon2Place; my $db = Geo::LatLon2Place->new ("/var/lib/mydb.cdb"); DESCRIPTION This is a single-purpose module that tries to do one job: find the nearest placename for a point on earth. It doesn't claim to do a perfect job, but it tries to be simple to set up, simple to use and be fast. It doesn't attempt to provide many features or nifty algorithms, and is meant to be used in situations where you simply need a name for a coordinate without becoming a GIS expert first. BUILDING, SETTING UP AND USAGE To build this module, you need tinycdb, a cdb implementation by Michael Tokarev, or a compatible library. On GNU/Debian-based systems you can get this by executing apt-get install libcdb-dev. After install the module, you need to generate a database using the geo-latlon2place-makedb command. Currently, it accepts various databases from geonames (, note the license), for example, cities500.zip, which lists all places with population 500 or more: wget https://download.geonames.org/export/dump/cities500.zip unzip cities500.zip geo-latlon2place-makedb cities500.txt cities500.ll2p This will create a file ll2p.cdb that you can use for lookups with this module. At the time of this writing, the cities500 database results in about a 10MB file while the allCountries database results in about 120MB. Lookups will return a string of the form "placename, countrycode". If you want to use the geonames postal code database (from ), use these commands: wget https://download.geonames.org/export/zip/allCountries.zip unzip allCountries.zip geo-latlon2place-makedb --extract geonames-postalcodes allCountries.txt allCountries.ll2p You can then use the resulting database like this: my $lookup = Geo::LatLon2Place->new ("allCountries.ll2p"); # and then do as many queries as you wish: my $res = $lookup->(49, 8.4); if (defined $res) { utf8::decode $res; # convert $res from utf-8 to unicode print "49, 8.4 found $res\n"; # should be Karlsruhe, DE for geonames } else { print "nothing found at 49, 8.4\n"; } THE Geo::LatLon2Place CLASS $lookup = Geo::LatLon2Place->new ($path) Opens a database created by geo-latlon2place-makedb and return an object that allows you to run queries against it. The database will be mmaped, so it will not be loaded into memory, but your operating system will cache it appropriately. $res = $lookup->lookup ($lat $lon[, $radius]) Looks up the point in the database that is "nearest" to "$lat, $lon", search at leats up to $radius kilometres. The default for $radius is the cell size the database is built with, and this usually works best, so you usually do not specify this parameter. If something is found, the associated data blob (always a binary string) is returned, otherwise you receive "undef". Unless you specify a custom format/extractor when building your database, the data blob is actually a UTF-8 string, so you might want to call "utf8::decode" on it to get a unicode string: my $res = $db->lookup (47, 37); # near mariupol, UA if (defined $res) { utf8::decode $res; # $res now contains the unicode result } ALGORITHM The algorithm that this module implements consists of two parts: binning and weighting (done when writing the database) and then finding the nearest point. The first part bins all data points into a grid which has its minimum cell size at the equator and poles, with somewhat larger cells in between. The lookup part will then read the cell that the coordinate is in and some neighbouring cells (depending on the search radius, by default it will read the eight cells around it). It will then calculate the (squared) distance to the search coordinate using an approximate euclidean distance on an equireactangular projection. The squared distance is multiplied with a weight (1..25 for the geonames database, based on population and adminstrative status, always 1 for postal codes), and the minimum distance wins. Binning should not introduce errors, but bigger bins can slow down lookup times due to having to look at more places. The lookup assumes a spherical shape for the earth, the equirectangular projection stretches distances unevenly and the euclidean distance calculation introduces further errors. For typical distance (<< 100km) and the intended usage, these errors should be considered negligible. SPEED On my machine, "lookup" typically does more than a million lookups per second - performance varies depending on result density and number of indexed points. TENTATIVE ROADMAP The database writer should be accessible via a module, so you can easily generate your own databases without having to run an external command. The API might be extended to allow for multiple lookups, multiple returns, or nearest neighbour search, or more return values (distance, coordinates). Longer lookups will take advantage of perlmulticore. PERL MULTICORE SUPPORT This is not yet implemented: This module supports the perl multicore specification () when doing lookups. SEE ALSO geo-latlon2place-makedb to create databases from common formats. AUTHOR Marc Lehmann http://home.schmorp.de/