laravie / geotools
Geo-related tools PHP 7+ library
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Requires
- php: ^7.3 || ^8.0
Requires (Dev)
- phpunit/phpunit: ^8.4 || ^9.3.3
- willdurand/geocoder: ^4.0
Conflicts
Replaces
This package is auto-updated.
Last update: 2024-11-05 08:35:35 UTC
README
Geotools is a PHP geo-related library.
Features
- Accept almost all kind of WGS84 geographic coordinates as coordinates. »
- Support 23 different ellipsoids and it's easy to provide a new one if needed. »
- Convert and format decimal degrees coordinates to decimal minutes or degrees minutes seconds coordinates. »
- Convert decimal degrees coordinates in the Universal Transverse Mercator (UTM) projection. »
- Compute the distance in meter (by default), km, mi or ft between two coordinates using flat, great circle, haversine or vincenty algorithms. »
- Compute the initial and final bearing from the origin coordinate to the destination coordinate in degrees. »
- Compute the initial and final cardinal point (direction) from the origin coordinate to the destination coordinate, read more in wikipedia. »
- Compute the half-way point (coordinate) between the origin and the destination coordinates. »
- Compute the destination point (coordinate) with given bearing in degrees and a distance in meters. »
- Encode a coordinate to a geo hash string and decode it to a coordinate, read more in wikipedia and on geohash.org. »
- Encode a coordinate via the 10:10 algorithm. »
- Polygon class provides methods to check either a poing (coordinate) is in, or on the polygon's boundaries. »
- ... more to come ...
Installation
Geotools can be found on Packagist. The recommended way to install Geotools is through composer.
Run the following on the command line:
php composer require laravie/geotools=~1.0
Usage & API
Coordinate & Ellipsoid
The default geodetic datum is WGS84 and coordinates are in decimal degrees.
Here are the available ellipsoids: AIRY
, AUSTRALIAN_NATIONAL
, BESSEL_1841
, BESSEL_1841_NAMBIA
,
CLARKE_1866
, CLARKE_1880
, EVEREST
, FISCHER_1960_MERCURY
, FISCHER_1968
, GRS_1967
, GRS_1980
,
HELMERT_1906
, HOUGH
, INTERNATIONAL
, KRASSOVSKY
, MODIFIED_AIRY
, MODIFIED_EVEREST
,
MODIFIED_FISCHER_1960
, SOUTH_AMERICAN_1969
, WGS60
, WGS66
, WGS72
, and WGS84
.
If you need to use an other ellipsoid, just create an array like this:
<?php $myEllipsoid = \League\Geotools\Coordinate\Ellipsoid::createFromArray([ 'name' => 'My Ellipsoid', // The name of the Ellipsoid 'a' => 123.0, // The semi-major axis (equatorial radius) in meters 'invF' => 456.0 // The inverse flattening ]);
Geotools is built to work with Geocoder. It means it's possible to use the
\Geocoder\Model\Address
directly but it's also possible to use a string or a simple array with its
latitude and longitude.
It supports valid and acceptable geographic coordinates like:
- 40:26:46N,079:56:55W
- 40:26:46.302N 079:56:55.903W
- 40°26′47″N 079°58′36″W
- 40d 26′ 47″ N 079d 58′ 36″ W
- 40.446195N 79.948862W
- 40.446195, -79.948862
- 40° 26.7717, -79° 56.93172
Latitudes below -90.0 or above 90.0 degrees are capped through \League\Geotools\Coordinate\Coordinate::normalizeLatitude()
.
Longitudes below -180.0 or above 180.0 degrees are wrapped through \League\Geotools\Coordinate\Coordinate::normalizeLongitude()
.
<?php use League\Geotools\Coordinate\Coordinate; use League\Geotools\Coordinate\Ellipsoid; // from an \Geocoder\Model\Address instance within Airy ellipsoid $coordinate = new Coordinate($geocoderResult, Ellipsoid::createFromName(Ellipsoid::AIRY)); // or in an array of latitude/longitude coordinate within GRS 1980 ellipsoid $coordinate = new Coordinate([48.8234055, 2.3072664], Ellipsoid::createFromName(Ellipsoid::GRS_1980)); // or in latitude/longitude coordinate within WGS84 ellipsoid $coordinate = new Coordinate('48.8234055, 2.3072664'); // or in degrees minutes seconds coordinate within WGS84 ellipsoid $coordinate = new Coordinate('48°49′24″N, 2°18′26″E'); // or in decimal minutes coordinate within WGS84 ellipsoid $coordinate = new Coordinate('48 49.4N, 2 18.43333E'); // the result will be: printf("Latitude: %F\n", $coordinate->getLatitude()); // 48.8234055 printf("Longitude: %F\n", $coordinate->getLongitude()); // 2.3072664 printf("Ellipsoid name: %s\n", $coordinate->getEllipsoid()->getName()); // WGS 84 printf("Equatorial radius: %F\n", $coordinate->getEllipsoid()->getA()); // 6378136.0 printf("Polar distance: %F\n", $coordinate->getEllipsoid()->getB()); // 6356751.317598 printf("Inverse flattening: %F\n", $coordinate->getEllipsoid()->getInvF()); // 298.257224 printf("Mean radius: %F\n", $coordinate->getEllipsoid()->getArithmeticMeanRadius()); // 6371007.772533 // it's also possible to modify the coordinate without creating an other coodinate $coordinate->setFromString('40°26′47″N 079°58′36″W'); printf("Latitude: %F\n", $coordinate->getLatitude()); // 40.446388888889 printf("Longitude: %F\n", $coordinate->getLongitude()); // -79.976666666667
Convert
It provides methods (and aliases) to convert decimal degrees WGS84 coordinates to degrees minutes seconds or decimal minutes WGS84 coordinates. You can format the output string easily.
You can also convert them in the Universal Transverse Mercator (UTM) projection (Southwest coast of Norway and the region of Svalbard are covered).
<?php $geotools = new \League\Geotools\Geotools(); $coordinate = new \League\Geotools\Coordinate\Coordinate('40.446195, -79.948862'); $converted = $geotools->convert($coordinate); // convert to decimal degrees without and with format string printf("%s\n", $converted->toDecimalMinutes()); // 40 26.7717N, -79 56.93172W printf("%s\n", $converted->toDM('%P%D°%N %p%d°%n')); // 40°26.7717 -79°56.93172 // convert to degrees minutes seconds without and with format string printf("%s\n", $converted->toDegreesMinutesSeconds('<p>%P%D:%M:%S, %p%d:%m:%s</p>')); // <p>40:26:46, -79:56:56</p> printf("%s\n", $converted->toDMS()); // 40°26′46″N, 79°56′56″W // convert in the UTM projection (standard format) printf("%s\n", $converted->toUniversalTransverseMercator()); // 17T 589138 4477813 printf("%s\n", $converted->toUTM()); // 17T 589138 4477813 (alias)
Here is the mapping:
Distance
It provides methods to compute the distance in meter (by default), km, mi or ft between two coordinates using flat (most performant), great circle, haversine or vincenty (most accurate) algorithms.
Those coordinates should be in the same ellipsoid.
<?php $geotools = new \League\Geotools\Geotools(); $coordA = new \League\Geotools\Coordinate\Coordinate([48.8234055, 2.3072664]); $coordB = new \League\Geotools\Coordinate\Coordinate([43.296482, 5.36978]); $distance = $geotools->distance()->setFrom($coordA)->setTo($coordB); printf("%s\n",$distance->flat()); // 659166.50038742 (meters) printf("%s\n",$distance->greatCircle()); // 659021.90812846 printf("%s\n",$distance->in('km')->haversine()); // 659.02190812846 printf("%s\n",$distance->in('mi')->vincenty()); // 409.05330679648 printf("%s\n",$distance->in('ft')->flat()); // 2162619.7519272
Point
It provides methods to compute the initial and final bearing in degrees, the initial and final cardinal direction,
the middle point and the destination point. The middle and the destination points returns a
\League\Geotools\Coordinate\Coordinate
object with the same ellipsoid.
<?php $geotools = new \League\Geotools\Geotools(); $coordA = new \League\Geotools\Coordinate\Coordinate([48.8234055, 2.3072664]); $coordB = new \League\Geotools\Coordinate\Coordinate([43.296482, 5.36978]); $vertex = $geotools->vertex()->setFrom($coordA)->setTo($coordB); printf("%d\n", $vertex->initialBearing()); // 157 (degrees) printf("%s\n", $vertex->initialCardinal()); // SSE (SouthSouthEast) printf("%d\n", $vertex->finalBearing()); // 160 (degrees) printf("%s\n", $vertex->finalCardinal()); // SSE (SouthSouthEast) $middlePoint = $vertex->middle(); // \League\Geotools\Coordinate\Coordinate printf("%s\n", $middlePoint->getLatitude()); // 46.070143125815 printf("%s\n", $middlePoint->getLongitude()); // 3.9152401085931 $destinationPoint = $geotools->vertex()->setFrom($coordA)->destination(180, 200000); // \League\Geotools\Coordinate\Coordinate printf("%s\n", $destinationPoint->getLatitude()); // 47.026774650075 printf("%s\n", $destinationPoint->getLongitude()); // 2.3072664
Geohash
It provides methods to get the geo hash and its bounding box's coordinates (SouthWest & NorthEast) of a coordinate and the coordinate and its bounding box's coordinates (SouthWest & NorthEast) of a geo hash.
<?php $geotools = new \League\Geotools\Geotools(); $coordToGeohash = new \League\Geotools\Coordinate\Coordinate('43.296482, 5.36978'); // encoding $encoded = $geotools->geohash()->encode($coordToGeohash, 4); // 12 is the default length / precision // encoded printf("%s\n", $encoded->getGeohash()); // spey // encoded bounding box $boundingBox = $encoded->getBoundingBox(); // array of \League\Geotools\Coordinate\CoordinateInterface $southWest = $boundingBox[0]; $northEast = $boundingBox[1]; printf("http://www.openstreetmap.org/?minlon=%s&minlat=%s&maxlon=%s&maxlat=%s&box=yes\n", $southWest->getLongitude(), $southWest->getLatitude(), $northEast->getLongitude(), $northEast->getLatitude() ); // http://www.openstreetmap.org/?minlon=5.2734375&minlat=43.2421875&maxlon=5.625&maxlat=43.41796875&box=yes // decoding $decoded = $geotools->geohash()->decode('spey61y'); // decoded coordinate printf("%s\n", $decoded->getCoordinate()->getLatitude()); // 43.296432495117 printf("%s\n", $decoded->getCoordinate()->getLongitude()); // 5.3702545166016 // decoded bounding box $boundingBox = $decoded->getBoundingBox(); //array of \League\Geotools\Coordinate\CoordinateInterface $southWest = $boundingBox[0]; $northEast = $boundingBox[1]; printf("http://www.openstreetmap.org/?minlon=%s&minlat=%s&maxlon=%s&maxlat=%s&box=yes\n", $southWest->getLongitude(), $southWest->getLatitude(), $northEast->getLongitude(), $northEast->getLatitude() ); // http://www.openstreetmap.org/?minlon=5.3695678710938&minlat=43.295745849609&maxlon=5.3709411621094&maxlat=43.297119140625&box=yes
10:10
Represent a location with 10m accuracy using a 10 character code that includes features to prevent errors in entering the code. Read more about the algorithm here.
<?php $tenten = new \League\Geotools\Tests\Geohash\TenTen; $tenten->encode(new Coordinate([51.09559, 1.12207])); // MEQ N6G 7NY5
Vertex
Represents a segment with a direction. You can find if two vertexes are on the same line.
<?php $vertexA->setFrom(48.8234055); $vertexA->setTo(2.3072664); $vertexB->setFrom(48.8234055); $vertexB->setTo(2.3072664); $vertexA->isOnSameLine($vertexB);
Polygon
It helps you to know if a point (coordinate) is in a Polygon or on the Polygon's boundaries and if this in on a Polygon's vertex.
First you need to create the polygon, you can provide:
- an array of arrays
- an array of
Coordinate
- a
CoordinateCollection
<?php $polygon = new \League\Geotools\Polygon\Polygon([ [48.9675969, 1.7440796], [48.4711003, 2.5268555], [48.9279131, 3.1448364], [49.3895245, 2.6119995], ]); $polygon->setPrecision(5); // set the comparision precision $polygon->pointInPolygon(new \League\Geotools\Coordinate\Coordinate([49.1785607, 2.4444580])); // true $polygon->pointInPolygon(new \League\Geotools\Coordinate\Coordinate([49.1785607, 5])); // false $polygon->pointOnBoundary(new \League\Geotools\Coordinate\Coordinate([48.7193486, 2.13546755])); // true $polygon->pointOnBoundary(new \League\Geotools\Coordinate\Coordinate([47.1587188, 2.87841795])); // false $polygon->pointOnVertex(new \League\Geotools\Coordinate\Coordinate([48.4711003, 2.5268555])); // true $polygon->pointOnVertex(new \League\Geotools\Coordinate\Coordinate([49.1785607, 2.4444580])); // false $polygon->getBoundingBox(); // return the BoundingBox object
Unit Tests
To run unit tests, you'll need the cURL
extension and a set of dependencies, you can install them using Composer:
$ php composer.phar install --dev
Once installed, just launch the following command:
$ phpunit --coverage-text
Credits
Contributor Code of Conduct
As contributors and maintainers of this project, we pledge to respect all people who contribute through reporting issues, posting feature requests, updating documentation, submitting pull requests or patches, and other activities.
We are committed to making participation in this project a harassment-free experience for everyone, regardless of level of experience, gender, gender identity and expression, sexual orientation, disability, personal appearance, body size, race, age, or religion.
Examples of unacceptable behavior by participants include the use of sexual language or imagery, derogatory comments or personal attacks, trolling, public or private harassment, insults, or other unprofessional conduct.
Project maintainers have the right and responsibility to remove, edit, or reject comments, commits, code, wiki edits, issues, and other contributions that are not aligned to this Code of Conduct. Project maintainers who do not follow the Code of Conduct may be removed from the project team.
Instances of abusive, harassing, or otherwise unacceptable behavior may be reported by opening an issue or contacting one or more of the project maintainers.
This Code of Conduct is adapted from the Contributor Covenant, version 1.0.0, available at http://contributor-covenant.org/version/1/0/0/
License
Geotools is released under the MIT License. See the bundled LICENSE file for details.