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1194 lines
41 KiB
Plaintext
1194 lines
41 KiB
Plaintext
.. _ref-gis-install:
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======================
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GeoDjango Installation
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======================
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Overview
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========
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In general, GeoDjango installation requires:
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1. :ref:`python24` and :ref:`django`
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2. :ref:`spatial_database`
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3. :ref:`geospatial_libs`
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Details for each of the requirements and installation instructions
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are provided in the sections below. In addition, platform-specific
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instructions are available for:
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* :ref:`macosx`
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* :ref:`ubuntudebian`
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* :ref:`windows`
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.. admonition:: Use the Source
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Because GeoDjango takes advantage of the latest in the open source geospatial
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software technology, recent versions of the libraries are necessary.
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If binary packages aren't available for your platform,
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:ref:`installation from source <build_from_source>`
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may be required. When compiling the libraries from source, please follow the
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directions closely, especially if you're a beginner.
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Requirements
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============
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.. _python24:
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Python 2.4+
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-----------
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Because of heavy use of the decorator syntax, Python 2.4 is minimum
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version supported by GeoDjango. Python 2.5+ is recommended because the
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`ctypes`__ module comes included; otherwise, 2.4 users will need to
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`download and install ctypes`__.
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__ http://docs.python.org/lib/module-ctypes.html
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__ http://sourceforge.net/projects/ctypes/files/
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.. _django:
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Django
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------
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Because GeoDjango is included with Django, please refer to Django's
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:ref:`installation instructions <intro-install>` for details on how to install.
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.. _spatial_database:
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Spatial Database
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----------------
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PostgreSQL (with PostGIS), MySQL, Oracle, and SQLite (with SpatiaLite) are
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the spatial databases currently supported.
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.. note::
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PostGIS is recommended, because it is the most mature and feature-rich
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open source spatial database.
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The geospatial libraries required for a GeoDjango installation depends
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on the spatial database used. The following lists the library requirements,
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supported versions, and any notes for each of the supported database backends:
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================== ============================== ================== ==========================================================
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Database Library Requirements Supported Versions Notes
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================== ============================== ================== ==========================================================
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PostgreSQL GEOS, PROJ.4, PostGIS 8.1+ Requires PostGIS.
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MySQL GEOS 5.x Not OGC-compliant; limited functionality.
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Oracle GEOS 10.2, 11 XE not supported; not tested with 9.
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SQLite GEOS, GDAL, PROJ.4, SpatiaLite 3.6.+ Requires SpatiaLite 2.3+, pysqlite2 2.5+, and Django 1.1.
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================== ============================== ================== ==========================================================
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.. _geospatial_libs:
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Geospatial Libraries
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--------------------
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GeoDjango uses and/or provides interfaces for the the following open source
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geospatial libraries:
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======================== ==================================== ================================ ==========================
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Program Description Required Supported Versions
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======================== ==================================== ================================ ==========================
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:ref:`GEOS <ref-geos>` Geometry Engine Open Source Yes 3.2, 3.1, 3.0
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`PROJ.4`_ Cartographic Projections library Yes (PostgreSQL and SQLite only) 4.7, 4.6, 4.5, 4.4
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:ref:`GDAL <ref-gdal>` Geospatial Data Abstraction Library No (but, required for SQLite) 1.7, 1.6, 1.5, 1.4
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:ref:`GeoIP <ref-geoip>` IP-based geolocation library No 1.4
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`PostGIS`__ Spatial extensions for PostgreSQL Yes (PostgreSQL only) 1.5, 1.4, 1.3
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`SpatiaLite`__ Spatial extensions for SQLite Yes (SQLite only) 2.4, 2.3
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======================== ==================================== ================================ ==========================
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.. admonition:: Install GDAL
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While :ref:`gdalbuild` is technically not required, it is *recommended*.
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Some features of GeoDjango (including the :ref:`ref-layermapping` and the geographic
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admin) depend on its functionality.
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.. note::
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The GeoDjango interfaces to GEOS, GDAL, and GeoIP may be used
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independently of Django. In other words, no database or settings file
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required -- just import them as normal from :mod:`django.contrib.gis`.
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.. _PROJ.4: http://trac.osgeo.org/proj/
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__ http://postgis.refractions.net/
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__ http://www.gaia-gis.it/spatialite/index.html
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.. _build_from_source:
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Building from Source
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====================
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When installing from source on UNIX and GNU/Linux systems, please follow
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the installation instructions carefully, and install the libraries in the
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given order. If using MySQL or Oracle as the spatial database, only GEOS
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is required.
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.. note::
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On Linux platforms, it may be necessarry to run the ``ldconfig``
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command after installing each library. For example::
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$ sudo make install
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$ sudo ldconfig
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.. note::
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OS X users are required to install `Apple Developer Tools`_ in order
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to compile software from source. This is typically included on your
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OS X installation DVDs.
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.. _Apple Developer Tools: http://developer.apple.com/tools/xcode/
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.. _geosbuild:
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GEOS
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----
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GEOS is a C++ library for performing geometric operations, and is the default
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internal geometry representation used by GeoDjango (it's behind the "lazy"
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geometries). Specifically, the C API library is called (e.g., ``libgeos_c.so``)
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directly from Python using ctypes.
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First, download GEOS 3.2 from the refractions website and untar the source
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archive::
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$ wget http://download.osgeo.org/geos/geos-3.2.1.tar.bz2
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$ tar xjf geos-3.2.1.tar.bz2
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Next, change into the directory where GEOS was unpacked, run the configure
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script, compile, and install::
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$ cd geos-3.2.1
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$ ./configure
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$ make
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$ sudo make install
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$ cd ..
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Troubleshooting
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^^^^^^^^^^^^^^^
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Can't find GEOS Library
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~~~~~~~~~~~~~~~~~~~~~~~
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When GeoDjango can't find GEOS, this error is raised::
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ImportError: Could not find the GEOS library (tried "geos_c"). Try setting GEOS_LIBRARY_PATH in your settings.
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The most common solution is to properly configure your :ref:`libsettings` *or* set
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:ref:`geoslibrarypath` in your settings.
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If using a binary package of GEOS (e.g., on Ubuntu 8.10), you may need to :ref:`binutils`.
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.. _geoslibrarypath:
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``GEOS_LIBRARY_PATH``
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~~~~~~~~~~~~~~~~~~~~~
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If your GEOS library is in a non-standard location, or you don't want to
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modify the system's library path then the :setting:`GEOS_LIBRARY_PATH` setting
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may be added to your Django settings file with the full path to the GEOS
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C library. For example::
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GEOS_LIBRARY_PATH = '/home/bob/local/lib/libgeos_c.so'
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.. note::
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The setting must be the *full* path to the **C** shared library; in
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other words you want to use ``libgeos_c.so``, not ``libgeos.so``.
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.. _proj4:
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PROJ.4
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------
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`PROJ.4`_ is a library for converting geospatial data to different coordinate
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reference systems.
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First, download the PROJ.4 source code and datum shifting files [#]_::
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$ wget http://download.osgeo.org/proj/proj-4.7.0.tar.gz
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$ wget http://download.osgeo.org/proj/proj-datumgrid-1.5.zip
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Next, untar the source code archive, and extract the datum shifting files in the
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``nad`` subdirectory. This must be done *prior* to configuration::
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$ tar xzf proj-4.7.0.tar.gz
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$ cd proj-4.7.0/nad
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$ unzip ../../proj-datumgrid-1.5.zip
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$ cd ..
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Finally, configure, make and install PROJ.4::
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$ ./configure
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$ make
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$ sudo make install
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$ cd ..
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.. _postgis:
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PostGIS
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-------
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`PostGIS`__ adds geographic object support to PostgreSQL, turning it
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into a spatial database. :ref:`geosbuild` and :ref:`proj4` should be
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installed prior to building PostGIS.
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.. note::
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The `psycopg2`_ module is required for use as the database adaptor
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when using GeoDjango with PostGIS.
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.. _psycopg2: http://initd.org/projects/psycopg2
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First download the source archive, and extract::
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$ wget http://postgis.refractions.net/download/postgis-1.5.1.tar.gz
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$ tar xzf postgis-1.5.1.tar.gz
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$ cd postgis-1.5.1
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Next, configure, make and install PostGIS::
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$ ./configure
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Finally, make and install::
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$ make
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$ sudo make install
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$ cd ..
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.. note::
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GeoDjango does not automatically create a spatial database. Please
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consult the section on :ref:`spatialdb_template` for more information.
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__ http://postgis.refractions.net/
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.. _gdalbuild:
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GDAL
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----
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`GDAL`__ is an excellent open source geospatial library that has support for
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reading most vector and raster spatial data formats. Currently, GeoDjango only
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supports :ref:`GDAL's vector data <ref-gdal>` capabilities [#]_.
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:ref:`geosbuild` and :ref:`proj4` should be installed prior to building GDAL.
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First download the latest GDAL release version and untar the archive::
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$ wget http://download.osgeo.org/gdal/gdal-1.7.1.tar.gz
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$ tar xzf gdal-1.7.1.tar.gz
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$ cd gdal-1.7.1
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Configure, make and install::
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$ ./configure
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$ make # Go get some coffee, this takes a while.
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$ sudo make install
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$ cd ..
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.. note::
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Because GeoDjango has it's own Python interface, the preceding instructions
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do not build GDAL's own Python bindings. The bindings may be built by
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adding the ``--with-python`` flag when running ``configure``. See
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`GDAL/OGR In Python`__ for more information on GDAL's bindings.
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If you have any problems, please see the troubleshooting section below for
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suggestions and solutions.
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__ http://trac.osgeo.org/gdal/
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__ http://trac.osgeo.org/gdal/wiki/GdalOgrInPython
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.. _gdaltrouble:
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Troubleshooting
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^^^^^^^^^^^^^^^
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Can't find GDAL Library
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~~~~~~~~~~~~~~~~~~~~~~~
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When GeoDjango can't find the GDAL library, the ``HAS_GDAL`` flag
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will be false::
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>>> from django.contrib.gis import gdal
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>>> gdal.HAS_GDAL
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False
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The solution is to properly configure your :ref:`libsettings` *or* set
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:ref:`gdallibrarypath` in your settings.
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.. _gdallibrarypath:
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``GDAL_LIBRARY_PATH``
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~~~~~~~~~~~~~~~~~~~~~
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If your GDAL library is in a non-standard location, or you don't want to
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modify the system's library path then the :setting:`GDAL_LIBRARY_PATH`
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setting may be added to your Django settings file with the full path to
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the GDAL library. For example::
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GDAL_LIBRARY_PATH = '/home/sue/local/lib/libgdal.so'
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.. _gdaldata:
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Can't find GDAL data files (``GDAL_DATA``)
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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When installed from source, GDAL versions 1.5.1 and below have an autoconf bug
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that places data in the wrong location. [#]_ This can lead to error messages
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like this::
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ERROR 4: Unable to open EPSG support file gcs.csv.
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...
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OGRException: OGR failure.
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The solution is to set the ``GDAL_DATA`` environment variable to the location of the
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GDAL data files before invoking Python (typically ``/usr/local/share``; use
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``gdal-config --datadir`` to find out). For example::
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$ export GDAL_DATA=`gdal-config --datadir`
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$ python manage.py shell
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If using Apache, you may need to add this environment variable to your configuration
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file::
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SetEnv GDAL_DATA /usr/local/share
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.. _spatialite:
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SpatiaLite
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----------
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.. versionadded:: 1.1
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.. note::
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Mac OS X users should follow the instructions in the :ref:`kyngchaos` section,
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as it is much easier than building from source.
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`SpatiaLite`__ adds spatial support to SQLite, turning it into a full-featured
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spatial database. Because SpatiaLite has special requirements, it typically
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requires SQLite and pysqlite2 (the Python SQLite DB-API adaptor) to be built from
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source. :ref:`geosbuild` and :ref:`proj4` should be installed prior to building
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SpatiaLite.
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After installation is complete, don't forget to read the post-installation
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docs on :ref:`create_spatialite_db`.
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__ http://www.gaia-gis.it/spatialite/index.html
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.. _sqlite:
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SQLite
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^^^^^^
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Typically, SQLite packages are not compiled to include the `R*Tree module`__ --
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thus it must be compiled from source. First download the latest amalgamation
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source archive from the `SQLite download page`__, and extract::
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$ wget http://www.sqlite.org/sqlite-amalgamation-3.6.22.tar.gz
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$ tar xzf sqlite-amalgamation-3.6.22.tar.gz
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$ cd sqlite-3.6.22
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Next, run the ``configure`` script -- however the ``CFLAGS`` environment variable
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needs to be customized so that SQLite knows to build the R*Tree module::
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$ CFLAGS="-DSQLITE_ENABLE_RTREE=1" ./configure
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$ make
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$ sudo make install
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$ cd ..
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.. note::
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If using Ubuntu, installing a newer SQLite from source can be very difficult
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because it links to the existing ``libsqlite3.so`` in ``/usr/lib`` which
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many other packages depend on. Unfortunately, the best solution at this time
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is to overwrite the existing library by adding ``--prefix=/usr`` to the
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``configure`` command.
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__ http://www.sqlite.org/rtree.html
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__ http://www.sqlite.org/download.html
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.. _spatialitebuild :
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SpatiaLite Library (``libspatialite``) and Tools (``spatialite``)
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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After SQLite has been built with the R*Tree module enabled, get the latest
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SpatiaLite library source and tools bundle from the `download page`__::
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$ wget http://www.gaia-gis.it/spatialite/libspatialite-amalgamation-2.3.1.tar.gz
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$ wget http://www.gaia-gis.it/spatialite/spatialite-tools-2.3.1.tar.gz
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$ tar xzf libspatialite-amalgamation-2.3.1.tar.gz
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$ tar xzf spatialite-tools-2.3.1.tar.gz
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Prior to attempting to build, please read the important notes below to see if
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customization of the ``configure`` command is necessary. If not, then run the
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``configure`` script, make, and install for the SpatiaLite library::
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$ cd libspatialite-amalgamation-2.3.1
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$ ./configure # May need to modified, see notes below.
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$ make
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$ sudo make install
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$ cd ..
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Finally, do the same for the SpatiaLite tools::
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$ cd spatialite-tools-2.3.1
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$ ./configure # May need to modified, see notes below.
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$ make
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$ sudo make install
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$ cd ..
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.. note::
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If you've installed GEOS and PROJ.4 from binary packages, you will have to specify
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their paths when running the ``configure`` scripts for *both* the library and the
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tools (the configure scripts look, by default, in ``/usr/local``). For example,
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on Debian/Ubuntu distributions that have GEOS and PROJ.4 packages, the command would be::
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$ ./configure --with-proj-include=/usr/include --with-proj-lib=/usr/lib --with-geos-include=/usr/include --with-geos-lib=/usr/lib
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.. note::
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For Mac OS X users building from source, the SpatiaLite library *and* tools
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need to be linked into the existing ``iconv`` library. While this happens
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automatically on Linux, the ``configure`` scripts need to know about the
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specific location on Mac OS X (via modification of the ``CFLAGS`` and
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``LDFLAGS`` environment variables prior to configuration)::
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$ CFLAGS=-I/usr/include LDFLAGS="-L/usr/lib -liconv" ./configure
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__ http://www.gaia-gis.it/spatialite/sources.html
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.. _pysqlite2:
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pysqlite2
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^^^^^^^^^
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Because SpatiaLite must be loaded as an external extension, it requires the
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``enable_load_extension`` method, which is only available in versions 2.5+.
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Thus, download pysqlite2 2.6, and untar::
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$ wget http://pysqlite.googlecode.com/files/pysqlite-2.6.0.tar.gz
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$ tar xzf pysqlite-2.6.0.tar.gz
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$ cd pysqlite-2.6.0
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Next, use a text editor (e.g., ``emacs`` or ``vi``) to edit the ``setup.cfg`` file
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to look like the following::
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[build_ext]
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#define=
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include_dirs=/usr/local/include
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library_dirs=/usr/local/lib
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libraries=sqlite3
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#define=SQLITE_OMIT_LOAD_EXTENSION
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.. note::
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The important thing here is to make sure you comment out the the
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``define=SQLITE_OMIT_LOAD_EXTENSION`` flag and that the ``include_dirs``
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and ``library_dirs`` settings are uncommented and set to the appropriate
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path if the SQLite header files and libraries are not in ``/usr/include``
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and ``/usr/lib``, respectively.
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After modifying ``setup.cfg`` appropriately, then run the ``setup.py`` script
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to build and install::
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$ sudo python setup.py install
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Post-Installation
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=================
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.. _spatialdb_template:
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Creating a Spatial Database Template for PostGIS
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------------------------------------------------
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Creating a spatial database with PostGIS is different than normal because
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additional SQL must be loaded to enable spatial functionality. Because of
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the steps in this process, it's better to create a database template that
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can be reused later.
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First, you need to be able to execute the commands as a privileged database
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user. For example, you can use the following to become the ``postgres`` user::
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$ sudo su - postgres
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|
|
.. note::
|
|
|
|
The location *and* name of the PostGIS SQL files (e.g., from
|
|
``POSTGIS_SQL_PATH`` below) depends on the version of PostGIS.
|
|
PostGIS versions 1.3 and below use ``<sharedir>/contrib/lwpostgis.sql``, whereas
|
|
versions 1.4 and 1.5 use ``<sharedir>/contrib/postgis-1.4/postgis.sql`` and
|
|
``<sharedir>/contrib/postgis-1.5/postgis.sql``, respectively.
|
|
|
|
The example below assumes PostGIS 1.5, thus you may need to modify
|
|
``POSTGIS_SQL_PATH`` and the name of the SQL file for the specific
|
|
version of PostGIS you are using.
|
|
|
|
Once you're a database super user, then you may execute the following commands
|
|
to create a PostGIS spatial database template. If running Ubuntu :ref:`ibex`
|
|
or Debian :ref:`lenny`, please refer to their specific documentation for
|
|
modifications to these commands::
|
|
|
|
$ POSTGIS_SQL_PATH=`pg_config --sharedir`/contrib/postgis-1.5
|
|
# Creating the template spatial database.
|
|
$ createdb -E UTF8 template_postgis
|
|
$ createlang -d template_postgis plpgsql # Adding PLPGSQL language support.
|
|
# Allows non-superusers the ability to create from this template
|
|
$ psql -d postgres -c "UPDATE pg_database SET datistemplate='true' WHERE datname='template_postgis';"
|
|
# Loading the PostGIS SQL routines
|
|
$ psql -d template_postgis -f $POSTGIS_SQL_PATH/postgis.sql
|
|
$ psql -d template_postgis -f $POSTGIS_SQL_PATH/spatial_ref_sys.sql
|
|
# Enabling users to alter spatial tables.
|
|
$ psql -d template_postgis -c "GRANT ALL ON geometry_columns TO PUBLIC;"
|
|
$ psql -d template_postgis -c "GRANT ALL ON geography_columns TO PUBLIC;"
|
|
$ psql -d template_postgis -c "GRANT ALL ON spatial_ref_sys TO PUBLIC;"
|
|
|
|
These commands may be placed in a shell script for later use; for convenience
|
|
the following scripts are available:
|
|
|
|
=============== ==========================================
|
|
PostGIS Version Shell Script
|
|
=============== ==========================================
|
|
1.3 `create_template_postgis-1.3.sh`_
|
|
1.4 `create_template_postgis-1.4.sh`_
|
|
1.5 `create_template_postgis-1.5.sh`_
|
|
=============== ==========================================
|
|
|
|
Afterwards, you may create a spatial database by simply specifying
|
|
``template_postgis`` as the template to use (via the ``-T`` option)::
|
|
|
|
$ createdb -T template_postgis <db name>
|
|
|
|
.. note::
|
|
|
|
While the ``createdb`` command does not require database super-user privileges,
|
|
it must be executed by a database user that has permissions to create databases.
|
|
You can create such a user with the following command::
|
|
|
|
$ createuser --createdb <user>
|
|
|
|
.. _create_template_postgis-1.3.sh: http://geodjango.org/docs/create_template_postgis-1.3.sh
|
|
.. _create_template_postgis-1.4.sh: http://geodjango.org/docs/create_template_postgis-1.4.sh
|
|
.. _create_template_postgis-1.5.sh: http://geodjango.org/docs/create_template_postgis-1.5.sh
|
|
.. _create_template_postgis-debian.sh: http://geodjango.org/docs/create_template_postgis-debian.sh
|
|
|
|
.. _create_spatialite_db:
|
|
|
|
Creating a Spatial Database for SpatiaLite
|
|
-------------------------------------------
|
|
|
|
After the SpatiaLite library and tools have been installed, it is now possible
|
|
to create spatial database for use with GeoDjango. In order to do this, download
|
|
the spatial database initialization SQL from the `SpatiaLite Resources`__ page::
|
|
|
|
$ wget http://www.gaia-gis.it/spatialite/init_spatialite-2.3.sql.gz
|
|
$ gunzip init_spatialite-2.3.sql.gz
|
|
|
|
Now, the ``spatialite`` command can be used to initialize a spatial database::
|
|
|
|
$ spatialite geodjango.db < init_spatialite-2.3.sql
|
|
|
|
.. note::
|
|
|
|
The parameter ``geodjango.db`` is the *filename* of the SQLite database
|
|
you want to use. Use the same in the :setting:`DATABASE_NAME`
|
|
inside your ``settings.py``.
|
|
|
|
|
|
__ http://www.gaia-gis.it/spatialite/resources.html
|
|
|
|
|
|
Add ``django.contrib.gis`` to ``INSTALLED_APPS``
|
|
------------------------------------------------
|
|
|
|
Like other Django contrib applications, you will *only* need to add
|
|
:mod:`django.contrib.gis` to :setting:`INSTALLED_APPS` in your settings.
|
|
This is the so that ``gis`` templates can be located -- if not done, then
|
|
features such as the geographic admin or KML sitemaps will not function properly.
|
|
|
|
.. _addgoogleprojection:
|
|
|
|
Add Google Projection to ``spatial_ref_sys`` table
|
|
--------------------------------------------------
|
|
|
|
.. versionchanged:: 1.2
|
|
|
|
.. note::
|
|
|
|
If running PostGIS 1.4 and above, the entry is already included in the
|
|
default ``spatial_ref_sys`` table. You can skip this step.
|
|
|
|
In order to conduct database transformations to the so-called "Google"
|
|
projection (a spherical mercator projection used by Google Maps),
|
|
an entry must be added to your spatial database's ``spatial_ref_sys`` table.
|
|
Invoke the Django shell from your project and execute the
|
|
``add_srs_entry`` function::
|
|
|
|
$ python manage shell
|
|
>>> from django.contrib.gis.utils import add_srs_entry
|
|
>>> add_srs_entry(900913)
|
|
|
|
.. note::
|
|
|
|
In Django 1.1 the name of this function is ``add_postgis_srs``.
|
|
|
|
This adds an entry for the 900913 SRID to the ``spatial_ref_sys`` (or equivalent)
|
|
table, making it possible for the spatial database to transform coordinates in
|
|
this projection. You only need to execute this command *once* per spatial database.
|
|
|
|
Troubleshooting
|
|
===============
|
|
|
|
If you can't find the solution to your problem here then participate in the
|
|
community! You can:
|
|
|
|
* Join the ``#geodjango`` IRC channel on FreeNode (may be accessed on the
|
|
web via `Mibbit`__). Please be patient and polite -- while you may not
|
|
get an immediate response, someone will attempt to answer your question
|
|
as soon as they see it.
|
|
* Ask your question on the `GeoDjango`__ mailing list.
|
|
* File a ticket on the `Django trac`__ if you think there's a bug. Make
|
|
sure to provide a complete description of the problem, versions used,
|
|
and specify the component as "GIS".
|
|
|
|
__ http://www.mibbit.com/?server=irc.freenode.net&channel=%23geodjango
|
|
__ http://groups.google.com/group/geodjango
|
|
__ http://code.djangoproject.com/simpleticket
|
|
|
|
.. _libsettings:
|
|
|
|
Library Environment Settings
|
|
----------------------------
|
|
|
|
By far, the most common problem when installing GeoDjango is that the
|
|
external shared libraries (e.g., for GEOS and GDAL) cannot be located. [#]_
|
|
Typically, the cause of this problem is that the operating system isn't aware
|
|
of the directory where the libraries built from source were installed.
|
|
|
|
In general, the library path may be set on a per-user basis by setting
|
|
an environment variable, or by configuring the library path for the entire
|
|
system.
|
|
|
|
``LD_LIBRARY_PATH`` environment variable
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
A user may set this environment variable to customize the library paths
|
|
they want to use. The typical library directory for software
|
|
built from source is ``/usr/local/lib``. Thus, ``/usr/local/lib`` needs
|
|
to be included in the ``LD_LIBRARY_PATH`` variable. For example, the user
|
|
could place the following in their bash profile::
|
|
|
|
export LD_LIBRARY_PATH=/usr/local/lib
|
|
|
|
Setting System Library Path
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
On GNU/Linux systems, there is typically a file in ``/etc/ld.so.conf``, which may include
|
|
additional paths from files in another directory, such as ``/etc/ld.so.conf.d``.
|
|
As the root user, add the custom library path (like ``/usr/local/lib``) on a
|
|
new line in ``ld.so.conf``. This is *one* example of how to do so::
|
|
|
|
$ sudo echo /usr/local/lib >> /etc/ld.so.conf
|
|
$ sudo ldconfig
|
|
|
|
For OpenSolaris users, the system library path may be modified using the
|
|
``crle`` utility. Run ``crle`` with no options to see the current configuration
|
|
and use ``crle -l`` to set with the new library path. Be *very* careful when
|
|
modifying the system library path::
|
|
|
|
# crle -l $OLD_PATH:/usr/local/lib
|
|
|
|
.. _binutils:
|
|
|
|
Install ``binutils``
|
|
^^^^^^^^^^^^^^^^^^^^
|
|
|
|
GeoDjango uses the ``find_library`` function (from the ``ctypes.util`` Python
|
|
module) to discover libraries. The ``find_library`` routine uses a program
|
|
called ``objdump`` (part of the ``binutils`` package) to verify a shared
|
|
library on GNU/Linux systems. Thus, if ``binutils`` is not installed on your
|
|
Linux system then Python's ctypes may not be able to find your library even if
|
|
your library path is set correctly and geospatial libraries were built perfectly.
|
|
|
|
The ``binutils`` package may be installed on Debian and Ubuntu systems using the
|
|
following command::
|
|
|
|
$ sudo apt-get install binutils
|
|
|
|
Similarly, on Red Hat and CentOS systems::
|
|
|
|
$ sudo yum install binutils
|
|
|
|
Platform Specific Instructions
|
|
==============================
|
|
|
|
.. _macosx:
|
|
|
|
Mac OS X
|
|
--------
|
|
|
|
Because of the variety of packaging systems available for OS X, users have
|
|
several different options for installing GeoDjango. These options are:
|
|
|
|
* :ref:`kyngchaos`
|
|
* :ref:`fink`
|
|
* :ref:`macports`
|
|
* :ref:`build_from_source`
|
|
|
|
.. note::
|
|
|
|
Currently, the easiest and recommended approach for installing GeoDjango
|
|
on OS X is to use the KyngChaos packages.
|
|
|
|
This section also includes instructions for installing an upgraded version
|
|
of :ref:`macosx_python` from packages provided by the Python Software
|
|
Foundation, however, this is not required.
|
|
|
|
.. _macosx_python:
|
|
|
|
Python
|
|
^^^^^^
|
|
|
|
Although OS X comes with Python installed, users can use framework
|
|
installers (`2.5`__ and `2.6`__ are available) provided by
|
|
the Python Software Foundation. An advantage to using the installer is
|
|
that OS X's Python will remain "pristine" for internal operating system
|
|
use.
|
|
|
|
__ http://python.org/ftp/python/2.5.4/python-2.5.4-macosx.dmg
|
|
__ http://python.org/ftp/python/2.6.2/python-2.6.2-macosx2009-04-16.dmg
|
|
|
|
.. note::
|
|
|
|
You will need to modify the ``PATH`` environment variable in your
|
|
``.profile`` file so that the new version of Python is used when
|
|
``python`` is entered at the command-line::
|
|
|
|
export PATH=/Library/Frameworks/Python.framework/Versions/Current/bin:$PATH
|
|
|
|
.. _kyngchaos:
|
|
|
|
KyngChaos Packages
|
|
^^^^^^^^^^^^^^^^^^
|
|
|
|
William Kyngesburye provides a number of `geospatial library binary packages`__
|
|
that make it simple to get GeoDjango installed on OS X without compiling
|
|
them from source. However, the `Apple Developer Tools`_ are still necessary
|
|
for compiling the Python database adapters :ref:`psycopg2_kyngchaos` (for PostGIS)
|
|
and :ref:`pysqlite2_kyngchaos` (for SpatiaLite).
|
|
|
|
.. note::
|
|
|
|
SpatiaLite users should consult the :ref:`spatialite_kyngchaos` section
|
|
after installing the packages for additional instructions.
|
|
|
|
Download the framework packages for:
|
|
|
|
* UnixImageIO
|
|
* PROJ
|
|
* GEOS
|
|
* SQLite3 (includes the SpatiaLite library)
|
|
* GDAL
|
|
|
|
Install the packages in the order they are listed above, as the GDAL and SQLite
|
|
packages require the packages listed before them. Afterwards, you can also
|
|
install the KyngChaos binary packages for `PostgreSQL and PostGIS`__.
|
|
|
|
After installing the binary packages, you'll want to add the following to
|
|
your ``.profile`` to be able to run the package programs from the command-line::
|
|
|
|
export PATH=/Library/Frameworks/UnixImageIO.framework/Programs:$PATH
|
|
export PATH=/Library/Frameworks/PROJ.framework/Programs:$PATH
|
|
export PATH=/Library/Frameworks/GEOS.framework/Programs:$PATH
|
|
export PATH=/Library/Frameworks/SQLite3.framework/Programs:$PATH
|
|
export PATH=/Library/Frameworks/GDAL.framework/Programs:$PATH
|
|
export PATH=/usr/local/pgsql/bin:$PATH
|
|
|
|
__ http://www.kyngchaos.com/wiki/software:frameworks
|
|
__ http://www.kyngchaos.com/wiki/software:postgres
|
|
|
|
.. note::
|
|
|
|
Use of these binaries requires Django 1.0.3 and above. If you are
|
|
using a previous version of Django (like 1.0.2), then you will have
|
|
to add the the following in your settings::
|
|
|
|
GEOS_LIBRARY_PATH='/Library/Frameworks/GEOS.framework/GEOS'
|
|
GDAL_LIBRARY_PATH='/Library/Frameworks/GDAL.framework/GDAL'
|
|
|
|
.. _psycopg2_kyngchaos:
|
|
|
|
psycopg2
|
|
~~~~~~~~
|
|
|
|
After you've installed the KyngChaos binaries and modified your ``PATH``, as
|
|
described above, ``psycopg2`` may be installed using the following command::
|
|
|
|
$ sudo python easy_install psycopg2
|
|
|
|
.. note::
|
|
|
|
To use ``easy_install`` you'll need to install Python's `setuptools`_.
|
|
|
|
.. _setuptools: http://pypi.python.org/pypi/setuptools
|
|
|
|
.. _pysqlite2_kyngchaos:
|
|
|
|
pysqlite2
|
|
~~~~~~~~~
|
|
|
|
Follow the :ref:`pysqlite2` source install instructions, however,
|
|
when editing the ``setup.cfg`` use the following instead::
|
|
|
|
[build_ext]
|
|
#define=
|
|
include_dirs=/Library/Frameworks/SQLite3.framework/unix/include
|
|
library_dirs=/Library/Frameworks/SQLite3.framework/unix/lib
|
|
libraries=sqlite3
|
|
#define=SQLITE_OMIT_LOAD_EXTENSION
|
|
|
|
.. _spatialite_kyngchaos:
|
|
|
|
SpatiaLite
|
|
~~~~~~~~~~
|
|
|
|
When :ref:`create_spatialite_db`, the ``spatialite`` program is required.
|
|
However, instead of attempting to compile the SpatiaLite tools from source,
|
|
download the `SpatiaLite Binaries`__ for OS X, and install ``spatialite`` in a
|
|
location available in your ``PATH``. For example::
|
|
|
|
$ curl -O http://www.gaia-gis.it/spatialite/spatialite-tools-osx-x86-2.3.1.tar.gz
|
|
$ tar xzf spatialite-tools-osx-x86-2.3.1.tar.gz
|
|
$ cd spatialite-tools-osx-x86-2.3.1/bin
|
|
$ sudo cp spatialite /Library/Frameworks/SQLite3.framework/Programs
|
|
|
|
Finally, for GeoDjango to be able to find the KyngChaos SpatiaLite library,
|
|
add the following to your ``settings.py``::
|
|
|
|
SPATIALITE_LIBRARY_PATH='/Library/Frameworks/SQLite3.framework/SQLite3'
|
|
|
|
__ http://www.gaia-gis.it/spatialite/binaries.html
|
|
|
|
.. _fink:
|
|
|
|
Fink
|
|
^^^^
|
|
|
|
`Kurt Schwehr`__ has been gracious enough to create GeoDjango packages for users
|
|
of the `Fink`__ package system. The following packages are available, depending
|
|
on which version of Python you want to use:
|
|
|
|
* ``django-gis-py26``
|
|
* ``django-gis-py25``
|
|
* ``django-gis-py24``
|
|
|
|
__ http://schwehr.org/blog/
|
|
__ http://www.finkproject.org/
|
|
|
|
.. _macports:
|
|
|
|
MacPorts
|
|
^^^^^^^^
|
|
|
|
`MacPorts`__ may be used to install GeoDjango prerequisites on Macintosh
|
|
computers running OS X. Because MacPorts still builds the software from source,
|
|
the `Apple Developer Tools`_ are required.
|
|
|
|
Summary::
|
|
|
|
$ sudo port install postgresql83-server
|
|
$ sudo port install geos
|
|
$ sudo port install proj
|
|
$ sudo port install postgis
|
|
$ sudo port install gdal
|
|
$ sudo port install libgeoip
|
|
|
|
.. note::
|
|
|
|
You will also have to modify the ``PATH`` in your ``.profile`` so
|
|
that the MacPorts programs are accessible from the command-line::
|
|
|
|
export PATH=/opt/local/bin:/opt/local/lib/postgresql83/bin
|
|
|
|
In addition, add the ``FALLBACK_DYLD_LIBRARY_PATH`` setting so that
|
|
the libraries can be found by Python::
|
|
|
|
export FALLBACK_DYLD_LIBRARY_PATH=/opt/local/lib:/opt/local/lib/postgresql83
|
|
|
|
__ http://www.macports.org/
|
|
|
|
.. _ubuntudebian:
|
|
|
|
Ubuntu & Debian GNU/Linux
|
|
-------------------------
|
|
|
|
.. _ubuntu:
|
|
|
|
Ubuntu
|
|
^^^^^^
|
|
|
|
.. _heron:
|
|
|
|
8.04 and lower
|
|
~~~~~~~~~~~~~~
|
|
|
|
The 8.04 (and lower) versions of Ubuntu use GEOS v2.2.3 in their binary packages,
|
|
which is incompatible with GeoDjango. Thus, do *not* use the binary packages
|
|
for GEOS or PostGIS and build some prerequisites from source, per the instructions
|
|
in this document; however, it is okay to use the PostgreSQL binary packages.
|
|
|
|
For more details, please see the Debian instructions for :ref:`etch` below.
|
|
|
|
.. _ibex:
|
|
|
|
8.10
|
|
~~~~
|
|
|
|
Use the synaptic package manager to install the following packages::
|
|
|
|
$ sudo apt-get install binutils libgdal1-1.5.0 postgresql-8.3-postgis postgresql-server-dev-8.3 python-psycopg2 python-setuptools
|
|
|
|
Afterwards, you may install Django with Python's ``easy_install`` script (the
|
|
Ubuntu package ``python-django`` uses an older version missing several
|
|
important bug fixes for GeoDjango)::
|
|
|
|
$ sudo easy_install Django
|
|
|
|
That's it! For the curious, the required binary prerequisites packages are:
|
|
|
|
* ``binutils``: for ctypes to find libraries
|
|
* ``postgresql-8.3``
|
|
* ``postgresql-server-dev-8.3``: for ``pg_config``
|
|
* ``postgresql-8.3-postgis``: for PostGIS 1.3.3
|
|
* ``libgeos-3.0.0``, and ``libgeos-c1``: for GEOS 3.0.0
|
|
* ``libgdal1-1.5.0``: for GDAL 1.5.0 library
|
|
* ``proj``: for PROJ 4.6.0 -- but no datum shifting files, see note below
|
|
* ``python-psycopg2``
|
|
* ``python-setuptools``: for ``easy_install``
|
|
|
|
Optional packages to consider:
|
|
|
|
* ``libgeoip1``: for :ref:`GeoIP <ref-geoip>` support
|
|
* ``gdal-bin``: for GDAL command line programs like ``ogr2ogr``
|
|
* ``python-gdal`` for GDAL's own Python bindings -- includes interfaces for raster manipulation
|
|
|
|
.. note::
|
|
|
|
The Ubuntu ``proj`` package does not come with the datum shifting files
|
|
installed, which will cause problems with the geographic admin because
|
|
the ``null`` datum grid is not available for transforming geometries to the
|
|
spherical mercator projection. A solution is to download the
|
|
datum-shifting files, create the grid file, and install it yourself::
|
|
|
|
$ wget http://download.osgeo.org/proj/proj-datumgrid-1.4.tar.gz
|
|
$ mkdir nad
|
|
$ cd nad
|
|
$ tar xzf ../proj-datumgrid-1.4.tar.gz
|
|
$ nad2bin null < null.lla
|
|
$ sudo cp null /usr/share/proj
|
|
|
|
Otherwise, the Ubuntu ``proj`` package is fine for general use as long as you
|
|
do not plan on doing any database transformation of geometries to the
|
|
Google projection (900913).
|
|
|
|
.. note::
|
|
|
|
The PostGIS SQL files are not placed the PostgreSQL share directory in the
|
|
Ubuntu packages. Use the `create_template_postgis-debian.sh`_ script
|
|
instead when :ref:`spatialdb_template`.
|
|
|
|
.. _debian:
|
|
|
|
Debian
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------
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.. _etch:
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4.0 (Etch)
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^^^^^^^^^^
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The situation here is the same as that of Ubuntu :ref:`heron` -- in other words,
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some packages must be built from source to work properly with GeoDjango.
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Binary Packages
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~~~~~~~~~~~~~~~
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The following command will install acceptable binary packages, as well as
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the development tools necessary to build the rest of the requirements::
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$ sudo apt-get install binutils bzip2 gcc g++ flex make postgresql-8.1 postgresql-server-dev-8.1 python-ctypes python-psycopg2 python-setuptools
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Required package information:
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* ``binutils``: for ctypes to find libraries
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* ``bzip2``: for decompressing the source packages
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* ``gcc``, ``g++``, ``make``: GNU developer tools used to compile the libraries
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* ``flex``: required to build PostGIS
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* ``postgresql-8.1``
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* ``postgresql-server-dev-8.1``: for ``pg_config``
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* ``python-ctypes``: Python 2.4 needs to have ctypes installed separately
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* ``python-psycopg2``
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* ``python-setuptools``: for ``easy_install``
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Optional packages:
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* ``libgeoip``: for :ref:`GeoIP <ref-geoip>` support
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Source Packages
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~~~~~~~~~~~~~~~
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You will still have to install :ref:`geosbuild`, :ref:`proj4`,
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:ref:`postgis`, and :ref:`gdalbuild` from source. Please follow the
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directions carefully.
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.. _lenny:
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5.0 (Lenny)
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^^^^^^^^^^^
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This version is comparable to Ubuntu :ref:`ibex`, so the command
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is very similar::
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$ sudo apt-get install binutils libgdal1-1.5.0 postgresql-8.3 postgresql-8.3-postgis postgresql-server-dev-8.3 python-psycopg2 python-setuptools
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This assumes that you are using PostgreSQL version 8.3. Else, replace ``8.3``
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in the above command with the appropriate PostgreSQL version.
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.. note::
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Please read the note in the Ubuntu :ref:`ibex` install documentation
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about the ``proj`` package -- it also applies here because the package does
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not include the datum shifting files.
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.. _post_install:
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Post-installation Notes
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~~~~~~~~~~~~~~~~~~~~~~~
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If the PostgreSQL database cluster was not initiated after installing, then it
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can be created (and started) with the following command::
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$ sudo pg_createcluster --start 8.3 main
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Afterwards, the ``/etc/init.d/postgresql-8.3`` script should be used to manage
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the starting and stopping of PostgreSQL.
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In addition, the SQL files for PostGIS are placed in a different location on
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Debian 5.0 . Thus when :ref:`spatialdb_template` either:
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* Create a symbolic link to these files::
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$ sudo ln -s /usr/share/postgresql-8.3-postgis/{lwpostgis,spatial_ref_sys}.sql /usr/share/postgresql/8.3
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If not running PostgreSQL 8.3, then replace ``8.3`` in the command above with the correct version.
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* Or use the `create_template_postgis-debian.sh`_ to create the spatial database.
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.. _windows:
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Windows XP
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----------
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Python
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^^^^^^
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First, download the `Python 2.6 installer`__ from the Python website. Next,
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execute the installer and use defaults, e.g., keep 'Install for all users'
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checked and the installation path set as ``C:\Python26``.
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.. note::
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You may already have a version of Python installed in ``C:\python`` as ESRI
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products sometimes install a copy there. *You should still install a
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fresh version of Python 2.6.*
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__ http://python.org/ftp/python/2.6.2/python-2.6.2.msi
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PostgreSQL
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^^^^^^^^^^
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First, select a mirror and download the latest `PostgreSQL 8.3 installer`__ from
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the EnterpriseDB website.
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.. note::
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PostgreSQL 8.3 is required because PostGIS is not available yet for 8.4.
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After downloading, simply click on the installer, follow the
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on-screen directions, and keep the default options (e.g., keep the installation
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path as ``C:\Program Files\PostgreSQL\8.3``).
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.. note::
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This PostgreSQL installation process will create both a new windows user to be the
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'postgres service account' and a special 'postgres superuser' to own the database
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cluster. You will be prompted to set a password for both users (make sure to write
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them down!). To see basic details on the 'service user' account right click on
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'My Computer' and select 'Manage' or go to: Control Panel -> Administrative Tools ->
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Computer Management -> System Tools -> Local Users and Groups.
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If installed successfully, the PostgreSQL server will run in the background each time
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the system as started as a Windows service. When finished, the installer should launch
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the Application Stack Builder (ASB) -- use this to install PostGIS, see instructions
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below for more details. A 'PostgreSQL 8.3' start menu group should be created that
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contains shortcuts for the ASB and 'Command Prompt', which launches a terminal window
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in the PostgreSQL directory.
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__ http://www.enterprisedb.com/products/pgdownload.do#windows
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PostGIS
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^^^^^^^
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From the Application Stack Builder (Programs -> PostgreSQL 8.3), select
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'PostgreSQL Database Server 8.3 on port 5432' from the drop down menu. Next,
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select 'PostGIS 1.3.6 for PostgreSQL 8.3' from the 'Spatial Extensions' tree
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in the list. Select only the default options during install (do not uncheck
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the option to create a default PostGIS database).
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.. note::
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You will be prompted to enter your 'postgres superuser' password in the
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'Database Connection Information' dialog.
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psycopg2
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^^^^^^^^
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The ``psycopg2`` Python module provides the interface between Python and the
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PostgreSQL database. Download the `Windows installer`__ (v2.0.10) and run
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using the default settings. [#]_
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__ http://www.stickpeople.com/projects/python/win-psycopg/psycopg2-2.0.10.win32-py2.6-pg8.3.7-release.exe
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GeoDjango Installer
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^^^^^^^^^^^^^^^^^^^
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Download the `GeoDjango Installer`__; this was created [#]_ to simplify the rest
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of the process for installing GeoDjango on Windows platforms. The installer
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automatically installs Django 1.1, GDAL 1.6.0, PROJ 4.6.1 (including datum grid
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files), and configures the necessary environment variables.
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Once the installer has completed, log out and log back in so that the
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modifications to the system environment variables take effect, and you
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should be good to go.
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.. note::
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The installer modifies the system ``Path`` environment variable to
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include ``C:\Program Files\PostgreSQL\8.3\bin`` and
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``C:\Program Files\GeoDjango\bin``. This is required so that Python
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may find the GEOS DLL provided by PostGIS and the GDAL DLL provided
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by the installer. The installer also sets the ``GDAL_DATA`` and
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``PROJ_LIB`` environment variables.
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__ http://geodjango.org/windows/GeoDjango_Installer.exe
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.. rubric:: Footnotes
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.. [#] The datum shifting files are needed for converting data to and from certain projections.
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For example, the PROJ.4 string for the `Google projection (900913) <http://spatialreference.org/ref/epsg/900913/proj4>`_
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requires the ``null`` grid file only included in the extra datum shifting files.
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It is easier to install the shifting files now, then to have debug a problem caused by their absence later.
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.. [#] Specifically, GeoDjango provides support for the `OGR <http://gdal.org/ogr>`_ library, a component of GDAL.
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.. [#] See `GDAL ticket #2382 <http://trac.osgeo.org/gdal/ticket/2382>`_.
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.. [#] GeoDjango uses the `find_library <http://docs.python.org/library/ctypes.html#finding-shared-libraries>`_
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routine from ``ctypes.util`` to locate shared libraries.
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.. [#] The ``psycopg2`` Windows installers are packaged and maintained by
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`Jason Erickson <http://www.stickpeople.com/projects/python/win-psycopg/>`_.
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.. [#] The source code for the installer is available in the `nsis_installer <http://geodjango.org/hg/nsis_installer/>`_
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GeoDjango mercurial repository.
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