Laravel MySQL Spatial extension
, (*1)
Laravel package to easily work with MySQL Spatial Data Types and MySQL Spatial Functions., (*2)
Please check the documentation for your MySQL version. MySQL's Extension for Spatial Data was added in MySQL 5.5 but many Spatial Functions were changed in 5.6 and 5.7., (*3)
Versions, (*4)
-
1.x.x
: MySQL 5.6 (also supports MySQL 5.5 but not all spatial analysis functions)
-
2.x.x
: MySQL 5.7 and 8.0 (Laravel version < 8.0)
-
3.x.x
: MySQL 8.0 with SRID support (Laravel version < 8.0)
4.x.x
: MySQL 8.0 with SRID support (Laravel 8+) [Current branch]
-
5.x.x
: MySQL 5.7 and 8.0 (Laravel 8+)
This package also works with MariaDB. Please refer to the MySQL/MariaDB Spatial Support Matrix for compatibility., (*5)
Installation
Add the package using composer:, (*6)
$ composer require grimzy/laravel-mysql-spatial:^4.0
# or for Laravel version < 8.0
$ composer require grimzy/laravel-mysql-spatial:^3.0
For MySQL 5.7:, (*7)
$ composer require grimzy/laravel-mysql-spatial:^2.0
For MySQL 5.6 and 5.5:, (*8)
$ composer require grimzy/laravel-mysql-spatial:^1.0
For Laravel versions before 5.5 or if not using auto-discovery, register the service provider in config/app.php
:, (*9)
'providers' => [
/*
* Package Service Providers...
*/
Grimzy\LaravelMysqlSpatial\SpatialServiceProvider::class,
],
Quickstart
Create a migration
From the command line:, (*10)
php artisan make:migration create_places_table
Then edit the migration you just created by adding at least one spatial data field. For Laravel versions prior to 5.5, you can use the Blueprint provided by this package (Grimzy\LaravelMysqlSpatial\Schema\Blueprint):, (*11)
use Illuminate\Database\Migrations\Migration;
use Illuminate\Database\Schema\Blueprint;
// For Laravel < 5.5
// use Grimzy\LaravelMysqlSpatial\Schema\Blueprint;
class CreatePlacesTable extends Migration {
/**
* Run the migrations.
*
* @return void
*/
public function up()
{
Schema::create('places', function(Blueprint $table)
{
$table->increments('id');
$table->string('name')->unique();
// Add a Point spatial data field named location
$table->point('location')->nullable();
// Add a Polygon spatial data field named area
$table->polygon('area')->nullable();
$table->timestamps();
});
// Or create the spatial fields with an SRID (e.g. 4326 WGS84 spheroid)
// Schema::create('places', function(Blueprint $table)
// {
// $table->increments('id');
// $table->string('name')->unique();
// // Add a Point spatial data field named location with SRID 4326
// $table->point('location', 4326)->nullable();
// // Add a Polygon spatial data field named area with SRID 4326
// $table->polygon('area', 4326)->nullable();
// $table->timestamps();
// });
}
/**
* Reverse the migrations.
*
* @return void
*/
public function down()
{
Schema::drop('places');
}
}
Run the migration:, (*12)
php artisan migrate
Create a model
From the command line:, (*13)
php artisan make:model Place
Then edit the model you just created. It must use the SpatialTrait
and define an array called $spatialFields
with the name of the MySQL Spatial Data field(s) created in the migration:, (*14)
namespace App;
use Illuminate\Database\Eloquent\Model;
use Grimzy\LaravelMysqlSpatial\Eloquent\SpatialTrait;
/**
* @property \Grimzy\LaravelMysqlSpatial\Types\Point $location
* @property \Grimzy\LaravelMysqlSpatial\Types\Polygon $area
*/
class Place extends Model
{
use SpatialTrait;
protected $fillable = [
'name'
];
protected $spatialFields = [
'location',
'area'
];
}
Saving a model
use Grimzy\LaravelMysqlSpatial\Types\Point;
use Grimzy\LaravelMysqlSpatial\Types\Polygon;
use Grimzy\LaravelMysqlSpatial\Types\LineString;
$place1 = new Place();
$place1->name = 'Empire State Building';
// saving a point
$place1->location = new Point(40.7484404, -73.9878441); // (lat, lng)
$place1->save();
// saving a polygon
$place1->area = new Polygon([new LineString([
new Point(40.74894149554006, -73.98615270853043),
new Point(40.74848633046773, -73.98648262023926),
new Point(40.747925497790725, -73.9851602911949),
new Point(40.74837050671544, -73.98482501506805),
new Point(40.74894149554006, -73.98615270853043)
])]);
$place1->save();
Or if your database fields were created with a specific SRID:, (*15)
use Grimzy\LaravelMysqlSpatial\Types\Point;
use Grimzy\LaravelMysqlSpatial\Types\Polygon;
use Grimzy\LaravelMysqlSpatial\Types\LineString;
$place1 = new Place();
$place1->name = 'Empire State Building';
// saving a point with SRID 4326 (WGS84 spheroid)
$place1->location = new Point(40.7484404, -73.9878441, 4326); // (lat, lng, srid)
$place1->save();
// saving a polygon with SRID 4326 (WGS84 spheroid)
$place1->area = new Polygon([new LineString([
new Point(40.74894149554006, -73.98615270853043),
new Point(40.74848633046773, -73.98648262023926),
new Point(40.747925497790725, -73.9851602911949),
new Point(40.74837050671544, -73.98482501506805),
new Point(40.74894149554006, -73.98615270853043)
])], 4326);
$place1->save();
Note: When saving collection Geometries (LineString
, Polygon
, MultiPoint
, MultiLineString
, and GeometryCollection
), only the top-most geometry should have an SRID set in the constructor., (*16)
In the example above, when creating a new Polygon()
, we only set the SRID on the Polygon
and use the default for the LineString
and the Point
objects., (*17)
Retrieving a model
$place2 = Place::first();
$lat = $place2->location->getLat(); // 40.7484404
$lng = $place2->location->getLng(); // -73.9878441
Geometry classes
Available Geometry classes
Check out the Class diagram., (*18)
Using Geometry classes
In order for your Eloquent Model to handle the Geometry classes, it must use the Grimzy\LaravelMysqlSpatial\Eloquent\SpatialTrait
trait and define a protected
property $spatialFields
as an array of MySQL Spatial Data Type column names (example in Quickstart)., (*19)
IteratorAggregate and ArrayAccess
The collection Geometries (LineString
, Polygon
, MultiPoint
, MultiLineString
, and GeometryCollection
) implement IteratorAggregate
and ArrayAccess
; making it easy to perform Iterator and Array operations. For example:, (*20)
$polygon = $multipolygon[10]; // ArrayAccess
// IteratorAggregate
for($polygon as $i => $linestring) {
echo (string) $linestring;
}
Helpers
From/To Well Known Text (WKT)
// fromWKT($wkt, $srid = 0)
$point = Point::fromWKT('POINT(2 1)');
$point->toWKT(); // POINT(2 1)
$polygon = Polygon::fromWKT('POLYGON((0 0,4 0,4 4,0 4,0 0),(1 1, 2 1, 2 2, 1 2,1 1))');
$polygon->toWKT(); // POLYGON((0 0,4 0,4 4,0 4,0 0),(1 1, 2 1, 2 2, 1 2,1 1))
From/To String
// fromString($wkt, $srid = 0)
$point = new Point(1, 2); // lat, lng
(string)$point // lng, lat: 2 1
$polygon = Polygon::fromString('(0 0,4 0,4 4,0 4,0 0),(1 1, 2 1, 2 2, 1 2,1 1)');
(string)$polygon; // (0 0,4 0,4 4,0 4,0 0),(1 1, 2 1, 2 2, 1 2,1 1)
From/To JSON (GeoJSON)
The Geometry classes implement JsonSerializable
and Illuminate\Contracts\Support\Jsonable
to help serialize into GeoJSON:, (*21)
$point = new Point(40.7484404, -73.9878441);
json_encode($point); // or $point->toJson();
// {
// "type": "Feature",
// "properties": {},
// "geometry": {
// "type": "Point",
// "coordinates": [
// -73.9878441,
// 40.7484404
// ]
// }
// }
To deserialize a GeoJSON string into a Geometry class, you can use Geometry::fromJson($json_string)
:, (*22)
$location = Geometry::fromJson('{"type":"Point","coordinates":[3.4,1.2]}');
$location instanceof Point::class; // true
$location->getLat(); // 1.2
$location->getLng()); // 3.4
Scopes: Spatial analysis functions
Spatial analysis functions are implemented using Eloquent Local Scopes., (*23)
Available scopes:, (*24)
distance($geometryColumn, $geometry, $distance)
distanceExcludingSelf($geometryColumn, $geometry, $distance)
distanceSphere($geometryColumn, $geometry, $distance)
distanceSphereExcludingSelf($geometryColumn, $geometry, $distance)
comparison($geometryColumn, $geometry, $relationship)
within($geometryColumn, $polygon)
crosses($geometryColumn, $geometry)
contains($geometryColumn, $geometry)
disjoint($geometryColumn, $geometry)
equals($geometryColumn, $geometry)
intersects($geometryColumn, $geometry)
overlaps($geometryColumn, $geometry)
doesTouch($geometryColumn, $geometry)
orderBySpatial($geometryColumn, $geometry, $orderFunction, $direction = 'asc')
orderByDistance($geometryColumn, $geometry, $direction = 'asc')
orderByDistanceSphere($geometryColumn, $geometry, $direction = 'asc')
Note that behavior and availability of MySQL spatial analysis functions differs in each MySQL version (cf. documentation)., (*25)
Migrations
For Laravel versions prior to 5.5, you can use the Blueprint provided with this package: Grimzy\LaravelMysqlSpatial\Schema\Blueprint
., (*26)
use Illuminate\Database\Migrations\Migration;
use Grimzy\LaravelMysqlSpatial\Schema\Blueprint;
class CreatePlacesTable extends Migration {
// ...
}
Columns
Available MySQL Spatial Types migration blueprints:, (*27)
$table->geometry(string $column_name, int $srid = 0)
$table->point(string $column_name, int $srid = 0)
$table->lineString(string $column_name, int $srid = 0)
$table->polygon(string $column_name, int $srid = 0)
$table->multiPoint(string $column_name, int $srid = 0)
$table->multiLineString(string $column_name, int $srid = 0)
$table->multiPolygon(string $column_name, int $srid = 0)
$table->geometryCollection(string $column_name, int $srid = 0)
Spatial indexes
You can add or drop spatial indexes in your migrations with the spatialIndex
and dropSpatialIndex
blueprints., (*28)
$table->spatialIndex('column_name')
-
$table->dropSpatialIndex(['column_name'])
or $table->dropSpatialIndex('index_name')
Note about spatial indexes from the MySQL documentation:, (*29)
For MyISAM
and (as of MySQL 5.7.5) InnoDB
tables, MySQL can create spatial indexes using syntax similar to that for creating regular indexes, but using the SPATIAL
keyword. Columns in spatial indexes must be declared NOT NULL
., (*30)
Also please read this important note regarding Index Lengths in the Laravel 5.6 documentation., (*31)
For example, as a follow up to the Quickstart; from the command line, generate a new migration:, (*32)
php artisan make:migration update_places_table
Then edit the migration file that you just created:, (*33)
use Illuminate\Database\Migrations\Migration;
use Illuminate\Database\Schema\Blueprint;
use Illuminate\Support\Facades\Schema;
class UpdatePlacesTable extends Migration
{
/**
* Run the migrations.
*
* @return void
*/
public function up()
{
// MySQL < 5.7.5: table has to be MyISAM
// \DB::statement('ALTER TABLE places ENGINE = MyISAM');
Schema::table('places', function (Blueprint $table) {
// Make sure point is not nullable
$table->point('location')->change();
// Add a spatial index on the location field
$table->spatialIndex('location');
});
}
/**
* Reverse the migrations.
*
* @return void
*/
public function down()
{
Schema::table('places', function (Blueprint $table) {
$table->dropSpatialIndex(['location']); // either an array of column names or the index name
});
// \DB::statement('ALTER TABLE places ENGINE = InnoDB');
Schema::table('places', function (Blueprint $table) {
$table->point('location')->nullable()->change();
});
}
}
Tests
$ composer test
# or
$ composer test:unit
$ composer test:integration
Integration tests require a running MySQL database. If you have Docker installed, you can start easily start one:, (*34)
$ make start_db # starts MySQL 8.0
# or
$ make start_db V=5.7 # starts MySQL 5.7
Contributing
Recommendations and pull request are most welcome! Pull requests with tests are the best! There are still a lot of MySQL spatial functions to implement or creative ways to use spatial functions., (*35)
Credits
Originally inspired from njbarrett's Laravel postgis package., (*36)