MapServer Python MapScript bindings
Project description
- Last Updated:
2024-03-29
Introduction
The Python mapscript module provides users an interface to MapServer classes on any platform, and has been tested on Python 3.8+.
The Python mapscript module is created using SWIG the the Simplified Wrapper and Interface Generator. This is used to create MapServer bindings in many different programming languages.
Language agnostic documentation is available at http://mapserver.org/mapscript/introduction.html
Python specific documentation is available at http://mapserver.org/mapscript/python.html
When working with Mapfiles in Python the mappyfile project can also be used, this allows creating, parsing, formatting, and validating Mapfiles without any dependencies on MapServer.
Wheels and PyPI
Python wheels for Windows are automatically and uploaded to PyPI - the Python Package Index on each MapServer release. Note - MapServer binaries still need to be installed on the system, and are not included in the wheel itself, see the Installation section below.
Advantages of ready-made wheels on PyPI include:
easy installation using pip
mapscript can be added as a dependency to Requirements Files
mapscript can be easily added to a Python Virtual Environment
Python2 or Python3 versions of mapscript can be installed and work with a single installation of MapServer
Wheels are built based on the Appveyor build environments. These are as follows at the time of writing:
Python 3.8 x64
Python 3.9 x64
Python 3.10 x64
Python 3.11 x64
Python 3.12 x64
The mapscript wheels have been compiled using Visual Studio 2022 version 17 (MSVC++ 17.9 _MSC_VER == 1939). Linux Wheels may also be available in the future using the manylinux project.
No source distributions will be provided on PyPI - to build from source requires the full MapServer source code, in which case it is easiest to take a copy of the full MapServer project and run the CMake process detailed below.
The Wheels contain a full test suite and sample data that can be run to check that the installed MapServer is running correctly.
Installation on Windows
To use mapscript you will need to add the MapServer binaries to your system path.
For Python 3.8+
As of Python 3.8 PATH and the current working directory are no longer used when searching for the MapServer DLLs. A new environment variable MAPSERVER_DLL_PATH has been introduced to set the location of the MapServer DLLs. On Windows you can use the following, replacing C:\MapServer\bin with the location of your MapServer binaries.
SET MAPSERVER_DLL_PATH=C:\MapServer\bin
If several folders are required (e.g. GDAL DLLs) multiple paths can be provided separated by semi-colons:
SET MAPSERVER_DLL_PATH=C:\MapServer\bin;C:\GDAL\bin
In PowerShell you can set this as follows:
$env:MAPSERVER_DLL_PATH="C:\MapServer\bin"
For Earlier Python Versions
For Python 3.7 and earlier (including Python 2.7) you can use either the MAPSERVER_DLL_PATH variable documented above, or the system PATH variable as below, replacing C:\MapServer\bin with the location of your MapServer binaries.
SET PATH=C:\MapServer\bin;%PATH%
Windows Binaries
Windows binary packages can be downloaded from GIS Internals. To ensure compatibility with the wheels, please use identical release packages, e.g. release-1930-x64-gdal-3-8-4-mapserver-8-0-1 for mapscript 8.0.1.
When using these packages the MapServer path will be similar to C:\release-1930-x64-gdal-3-8-4-mapserver-8-0-1\bin.
Prior to installing mapscript it is recommended to update pip to the latest version with the following command:
python -m pip install --upgrade pip
If there are binary wheels available for your system, mapscript can be installed using:
pip install mapscript
If you already have mapscript installed and wish to upgrade it to a newer version you can use:
pip install mapscript --upgrade
Now you should be able to import mapscript:
python -c "import mapscript;print(mapscript.msGetVersion())"
MapServer version 8.0.1 PROJ version 9.3 GDAL version 3.9 OUTPUT=PNG OUTPUT=JPEG SUPPORTS=PROJ SUPPORTS=AGG SUPPORTS=FREETYPE SUPPORTS=CAIRO SUPPORTS=SVG_SYMBOLS SUPPORTS=SVGCAIRO SUPPORTS=ICONV SUPPORTS=FRIBIDI SUPPORTS=WMS_SERVER SUPPORTS=WMS_CLIENT SUPPORTS=WFS_SERVER SUPPORTS=WFS_CLIENT SUPPORTS=WCS_SERVER SUPPORTS=OGCAPI_SERVER SUPPORTS=FASTCGI SUPPORTS=THREADS SUPPORTS=GEOS SUPPORTS=PBF INPUT=JPEG INPUT=POSTGIS INPUT=OGR INPUT=GDAL INPUT=SHAPEFILE INPUT=FLATGEOBUF
Installation on Unix
For Unix users there are two approaches to installing mapscript. The first is to install the python3-mapscript package using a package manager. For example on Ubuntu the following command can be used:
sudo apt-get install python3-mapscript
The second approach is to build and install the Python mapscript module from source. Full details on compiling MapServer from source are detailed on the Compiling on Unix page. To make sure Python mapscript is built alongside MapServer the following flag needs to be set:
-DWITH_PYTHON=ON
To configure the path of the mapscript installation location -DCMAKE_INSTALL_PREFIX can be set, e.g.
sudo cmake .. -DCMAKE_INSTALL_PREFIX=/usr
When installing the DESTDIR variable can be set (note DESTDIR is not used on Windows) to install mapscript to a non-default location. E.g.
make install DESTDIR=/tmp
In summary the install target runs the setup.py install command using custom paths (when set) similar to below:
python setup.py install –root=${DESTDIR} –prefix={CMAKE_INSTALL_PREFIX}
Installation Troubleshooting
If the _mapscript.pyd (or _mapscript.so on Unix) is missing from the Lib/site-packages/mapscript folder (which can happen if the source installation is installed rather than a pre-compiled version) the following error will occur:
ImportError: cannot import name '_mapscript' from partially initialized module 'mapscript' (most likely due to a circular import)
If the mapscript library is not on your PYTHONPATH you may see one of the following errors:
ModuleNotFoundError: No module named '_mapscript' # Python 3.x
If the MapServer.dll cannot be found in your system paths (or MAPSERVER_DLL_PATH environment variable when using Python 3.8 or higher on Windows) you will see the following message:
ImportError: DLL load failed: The specified module could not be found.
If MapServer has been built with a dependency also used by Python, and the versions don’t match you may see the error below.
ImportError: DLL load failed: The specified procedure could not be found.
This is a particular problem on Windows with sqlite3.dll as it is used by both Python and MapServer. Copying the sqlite3.dll from the MapServer binaries folder alongside _mapscript.pyd in Lib/site-packages/mapscript can resolve this.
Another common cause is if the Python environment contains multiple versions of the GEOS binary. For example geos_c.dll is included as part of the Shapely Python library, as well as a MapServer installation.
If you are using 32 bit Python on Windows and attempt to use a 64 bit version of MapScript the following import error will occur:
ImportError: DLL load failed while importing _mapscript: %1 is not a valid Win32 application.
Quickstart
Some basic examples of what can be done with mapscript are shown below. Note - before running any scripts using mapscript, you will need to add the MapServer binaries to your system path, see the Installation section above.
To open an existing Mapfile:
>>> import mapscript
>>> test_map = mapscript.mapObj(r"C:\Maps\mymap.map")
>>> extent = test_map.extent
Create a layer from a string:
>>> import mapscript
>>> layer = mapscript.fromstring("""LAYER NAME "test" TYPE POINT END""")
>>> layer
<mapscript.layerObj; proxy of C layerObj instance at ...>
>>> layer.name
'test'
>>> layer.type == mapscript.MS_LAYER_POINT
True
Building the Mapscript Module
The mapscript module is built as part of the MapServer CMake build process. This is configured using the mapserver/mapscript/CMakeLists.txt file.
Before the switch to CMake MapServer mapscript was built using distutils and setup.py. Now the setup.py.in file is used as a template that is filled with the MapServer version number and used to created wheel files for distribution, or install mapscript directly on the build machine.
The build process works as follows.
CMake runs SWIG. This uses the SWIG interface files to create a mapscriptPYTHON_wrap.c file, and a mapscript.py file containing the Python wrapper to the mapscript binary module.
CMake then uses the appropriate compiler on the system to compile the mapscriptPYTHON_wrap.c file into a Python binary module - _mapscript.pyd file on Windows, and a _mapscript.so file on Unix.
CMakeLists.txt is configured with a pythonmapscript-wheel target that copies all the required files to the output build folder where they are then packaged into a Python wheel. The wheel can be built using the following command:
cmake --build . --target pythonmapscript-wheel
The pythonmapscript-wheel target creates a virtual environment, creates the Python wheel, installs it to the virtual environment and finally runs the test suite. This process runs commands similar to the following:
python -m venv mapscriptvenv
python -m pip install --upgrade pip
pip install -r requirements-dev.txt
python setup.py bdist_wheel
pip install --no-index --find-links=dist mapscript
python -m pytest --pyargs mapscript.tests
SWIG can also be run manually, without using CMake. This may allow further optimizations and control on the output.
cd C:\Projects\mapserver\build
SET PATH=C:\MapServerBuild\swigwin-4.0.1;%PATH%
swig -python -shadow -o mapscript_wrap.c ../mapscript.i
SWIG has several command line options to control the output, examples of which are shown below:
swig -python -shadow -modern -templatereduce -fastdispatch -fvirtual -fastproxy
-modernargs -castmode -dirvtable -fastinit -fastquery -noproxydel -nobuildnone
-o mapscript_wrap.c ../mapscript.i
Testing
The mapscript module includes a test suite and a small sample dataset to check the output and MapServer installation. It is recommended pytest is used to run the tests. This can be installed using:
pip install pytest
Make sure the MapServer binaries are on the system path, and that the PROJ_DATA variable has been set as this is required for many of the tests.
SET PATH=C:\release-1930-x64-gdal-3-8-4-mapserver-8-0-1\bin;%PATH%
SET PROJ_DATA=C:\release-1930-x64-gdal-3-8-4-mapserver-8-0-1\bin\proj\SHARE
Finally run the command below to run the test suite:
pytest --pyargs mapscript.tests
Credits
Steve Lime (developer)
Sean Gillies (developer)
Frank Warmerdam (developer)
Howard Butler (developer)
Norman Vine (cygwin and distutils guru)
Tim Cera (install)
Michael Schultz (documentation)
Thomas Bonfort (developer)
Even Rouault (developer)
Seth Girvin (Python3 migration, documentation and builds)
Claude Paroz (Python3 migration)
Project details
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
Built Distributions
File details
Details for the file mapscript-8.2.2.tar.gz
.
File metadata
- Download URL: mapscript-8.2.2.tar.gz
- Upload date:
- Size: 457.9 kB
- Tags: Source
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/5.1.1 CPython/3.10.11
File hashes
Algorithm | Hash digest | |
---|---|---|
SHA256 | 2da8d7a591836dfc51e84bd319fb571b772f1a330e82bae185f699966846e500 |
|
MD5 | c78be036f4a2ae0d6adfd269eab10b16 |
|
BLAKE2b-256 | 0e9687547690795e1157770c97dcb7c73c6aaed9f1a99e4fe4622975b0764f10 |
File details
Details for the file mapscript-8.2.2-cp312-cp312-win_amd64.whl
.
File metadata
- Download URL: mapscript-8.2.2-cp312-cp312-win_amd64.whl
- Upload date:
- Size: 486.1 kB
- Tags: CPython 3.12, Windows x86-64
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/5.1.1 CPython/3.10.11
File hashes
Algorithm | Hash digest | |
---|---|---|
SHA256 | 16e83f5869b74bea8943840282c34291fd296ab763e1f532f676b973baedc4cc |
|
MD5 | 2dce2adc6f76c1faaa7956e289014732 |
|
BLAKE2b-256 | e426e402dc4bb3c7dfb95331a5638f1699bddf071337957427aed551edf7c4bf |
File details
Details for the file mapscript-8.2.2-cp311-cp311-win_amd64.whl
.
File metadata
- Download URL: mapscript-8.2.2-cp311-cp311-win_amd64.whl
- Upload date:
- Size: 485.4 kB
- Tags: CPython 3.11, Windows x86-64
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/5.1.1 CPython/3.10.11
File hashes
Algorithm | Hash digest | |
---|---|---|
SHA256 | 76c8c8b6f970ac4c75e37abdbea4e9cbc899ddd638460a092b329dde4786b77d |
|
MD5 | f28ce3987402edf2f122d6357627bf30 |
|
BLAKE2b-256 | c6ad299999a5de0400ab6f9905e37e3b7b1c099868b910e84839a2b621260eaf |
File details
Details for the file mapscript-8.2.2-cp310-cp310-win_amd64.whl
.
File metadata
- Download URL: mapscript-8.2.2-cp310-cp310-win_amd64.whl
- Upload date:
- Size: 485.3 kB
- Tags: CPython 3.10, Windows x86-64
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/5.1.1 CPython/3.10.11
File hashes
Algorithm | Hash digest | |
---|---|---|
SHA256 | c6446e71a9ea87776c0016e426eafd0a7594eea2e18d5f5732aca6529302bfdc |
|
MD5 | 2f044f1a5463d2cb8128129ede7019ba |
|
BLAKE2b-256 | 912a39819eecceb4bf83952d8768efc1e248e2c5f9f814f4b1da357dc17c9789 |
File details
Details for the file mapscript-8.2.2-cp39-cp39-win_amd64.whl
.
File metadata
- Download URL: mapscript-8.2.2-cp39-cp39-win_amd64.whl
- Upload date:
- Size: 485.6 kB
- Tags: CPython 3.9, Windows x86-64
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/5.1.1 CPython/3.10.11
File hashes
Algorithm | Hash digest | |
---|---|---|
SHA256 | ec22e1771fc37a5a32597dcbc72dac763c8cec53850cb14aa8220bec6d0bdef3 |
|
MD5 | 87f94bcb0693165fc4f1875fe7d77f1a |
|
BLAKE2b-256 | aeb320f147e5acb91d06d037748d1ea388d1721c2cef3c6b7ebdf3de3c37cb55 |
File details
Details for the file mapscript-8.2.2-cp38-cp38-win_amd64.whl
.
File metadata
- Download URL: mapscript-8.2.2-cp38-cp38-win_amd64.whl
- Upload date:
- Size: 485.3 kB
- Tags: CPython 3.8, Windows x86-64
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/5.1.1 CPython/3.10.11
File hashes
Algorithm | Hash digest | |
---|---|---|
SHA256 | efe07ff74df42107070d602c20b65a001c2c104256d9e2f6d292fb7bf6370f97 |
|
MD5 | 61725e01ac8002e010634eefcd6444c7 |
|
BLAKE2b-256 | 48ebfe2800e8be661836b9dc1967bc8ba033ff76fdc1f7c40a81895c0e5a6b3d |