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Example code of brick/geo

Informations about the package geo

Brick\Geo

A GIS geometry library for PHP.

Build Status Coverage Status Latest Stable Version Total Downloads License

Introduction

This library is a PHP implementation of the OpenGIS specification.

It provides Geometry classes (Point, LineString, Polygon, etc.), and can natively read/write many formats: WKB, WKT, EWKB, EWKT, and GeoJSON.

It also provides a GeometryEngine interface for advanced calculations (length, area, union, intersection, etc.), together with implementations that delegate these operations to a third-party GIS engine: the GEOS extension, or a GIS-enabled database such as MySQL or PostgreSQL.

Requirements and installation

This library requires PHP 8.1. For PHP 8.0, you can use version 0.9. For PHP 7.4, you can use version 0.7.

Install the library with Composer:

If you only need basic operations such as building Geometry objects, importing from / exporting to one of the supported formats (WKB, WKT, EWKB, EWKT, or GeoJSON), then you're all set.

If you need advanced features, such as length(), union(), intersection, etc., head on to the Configuration section to choose a GeometryEngine implementation.

Project status & release process

This library is still under development.

The current releases are numbered 0.x.y. When a non-breaking change is introduced (adding new methods, optimizing existing code, etc.), y is incremented.

When a breaking change is introduced, a new 0.x version cycle is always started.

It is therefore safe to lock your project to a given release cycle, such as 0.10.*.

If you need to upgrade to a newer release cycle, check the release history for a list of changes introduced by each further 0.x.0 version.

Quick start

Configuration

Advanced calculations are available through the GeometryEngine interface. The library ships with the following implementations:

Your choice for the right implementation should be guided by two criteria:

You should probably start with the easiest method that works for you, and test if this setup matches your expectations.

Following is a step-by-step guide for all possible configurations:

Using PDO and MySQL 5.6 or greater

Click to expand - Ensure that your MySQL version is at least `5.6`. Earlier versions only have partial GIS support based on bounding boxes and are not supported. - Use this bootstrap code in your project: Update the code with your own connection parameters, or use an existing `PDO` connection if you have one (recommended).

Using PDO and MariaDB 5.5 or greater

Click to expand MariaDB is a fork of MySQL, so you can follow the same procedure as for MySQL. Just ensure that your MariaDB version is `5.5` or greater.

Using PDO and PostgreSQL with PostGIS

Click to expand - Ensure that [PostGIS is installed](http://postgis.net/install/) on your server - Enable PostGIS on the database server if needed: CREATE EXTENSION postgis; - Use this bootstrap code in your project: Update the code with your own connection parameters, or use an existing `PDO` connection if you have one (recommended).

Using PDO and SQLite with SpatiaLite

Click to expand Due to [limitations in the PDO_SQLITE driver](https://bugs.php.net/bug.php?id=64810), it is currently not possible* to load the SpatiaLite extension with a `SELECT LOAD_EXTENSION()` query, hence you cannot use SpatiaLite with the PDO driver. You need to use the SQLite3 driver instead. Note that you can keep using your existing PDO_SQLITE code, all you need to do is create an additional in-memory SQLite3 database just to power the geometry engine. * It actually *is* possible, using [moxio/sqlite-extended-api](https://github.com/Moxio/sqlite-extended-api), which uses FFI and [Z-Engine](https://github.com/lisachenko/z-engine), but beware that this library is still experimental!

Using SQLite3 with SpatiaLite

Click to expand - Ensure that [SpatiaLite is installed](https://www.gaia-gis.it/fossil/libspatialite/index) on your system. - Ensure that the SQLite3 extension is enabled in your `php.ini`: extension=sqlite3.so - Ensure that the SQLite3 extension dir where SpatiaLite is installed is configured in your `php.ini`: [sqlite3] sqlite3.extension_dir = /usr/lib - Use this bootstrap code in your project: - Depending on the functions you use, you will probably need to initialize the spatial metadata by running this query: You only need to run this query once if your database is persisted, but **if your database is in-memory, you'll need to run it on every connection**. Be aware that this may hurt performance. In this example we have created an in-memory database for our GIS calculations, but you can also use an existing `SQLite3` connection.

Using GEOS PHP bindings

Click to expand - Ensure that [the PHP bindings for GEOS](https://git.osgeo.org/gitea/geos/php-geos) are installed on your server (GEOS 3.6.0 onwards; previous versions require compiling GEOS with the `--enable-php` flag). - Ensure that the GEOS extension is enabled in your `php.ini`: extension=geos.so - Use this bootstrap code in your project:

Geometry hierarchy

All geometry objects reside in the Brick\Geo namespace, and extend a base Geometry class:

Geometry exceptions

All geometry exceptions reside in the Brick\Geo\Exception namespace, and extend a base GeometryException object.

Geometry exceptions are fine-grained: only subclasses of the base GeometryException class are thrown throughout the project. This leaves to the user the choice to catch only specific exceptions, or all geometry-related exceptions.

Here is a list of all exceptions:

Spatial Function Reference

This is a list of all functions which are currently implemented in the geo project. Some functions are only available if you use a specific geometry engine, sometimes with a minimum version. This table also shows which functions are part of the OpenGIS standard.

Function Name GEOS PostGIS MySQL MariaDB SpatiaLite OpenGIS standard
area
azimuth
boundary
buffer
centroid
contains
convexHull 5.7.6
crosses
difference
disjoint
distance
envelope
equals
intersects
intersection
isSimple
isValid 5.7.6
length
locateAlong
locateBetween
makeValid
maxDistance
overlaps
pointOnSurface
relate
simplify 5.7.6 4.1.0
snapToGrid
symDifference
touches
union
within

Importing and exporting geometries

This library supports importing from and exporting to the following formats:

WKT

Well-Known Text is the standard text format for geometries.

Every Geometry class provides a convenience method fromText(), that accepts a WKT string and an optional SRID, and returns a Geometry object:

Geometries can be converted to WKT using the convenience method asText():

You can alternatively use the WKTReader and WKTWriter classes directly; the latter allows you to pretty-print the output.

WKB

Well-Known Binary is the standard binary format for geometries.

Every Geometry class provides a convenience method fromBinary(), that accepts a WKB binary string and an optional SRID, and returns a Geometry object:

Geometries can be converted to WKB using the convenience method asBinary():

You can alternatively use the WKBReader and WKBWriter classes directly; the latter allows you to choose the endianness of the output (big endian or little endian).

EWKT

Extended WKT is a PostGIS-specific text format that includes the SRID of the geometry object, which is missing from the standard WKT format. You can import from and export to this format using the EWKTReader and EWKTWriter classes:

EWKB

Extended WKB is a PostGIS-specific binary format that includes the SRID of the geometry object, which is missing from the standard WKB format. You can import from and export to this format using the EWKBReader and EWKBWriter classes:

GeoJSON

GeoJSON is an open standard format designed for representing simple geographical features, based on JSON, and standardized in RFC 7946.

This library supports importing geometries from, and exporting them to GeoJSON documents using the GeoJSONReader and GeoJSONWriter classes:

The library supports reading and writing Feature and FeatureCollection objects, together with custom properties.

GeoJSON aims to support WGS84 only, and as such all Geometries are imported using SRID 4326.

Doctrine mappings

You can use brick/geo types in your Doctrine entities using the brick/geo-doctrine package.

All versions of geo with dependencies

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