benchmarks | ||
capi | ||
cmake | ||
debian | ||
doc | ||
examples/client | ||
include | ||
macros | ||
src | ||
swig | ||
tests | ||
tools | ||
acsite.m4 | ||
appveyor.yml | ||
AUTHORS | ||
autogen.sh | ||
CMakeLists.txt | ||
configure.ac | ||
COPYING | ||
HOWTO_RELEASE | ||
INSTALL | ||
Makefile.am | ||
NEWS | ||
README.md | ||
Version.txt |
GEOS -- Geometry Engine, Open Source
GEOS is a C++11 library for performing operations on two-dimensional vector geometries. It is primarily a port of the JTS Topology Suite Java library. It provides many of the algorithms used by PostGIS, the Shapely package for Python, the sf package for R, and others.
More information is available the project homepage.
Build status
Branch | Debbie | Winnie | Dronie | Travis CI | GitLab CI | AppVeyor |
---|---|---|---|---|---|---|
3.8 |
Build/install
See INSTALL file
Client applications
Using the C interface
GEOS promises long-term stability of the C API. In general, successive releases of the C API may add new functions but will not remove or change existing types or function signatures. The C library uses the C++ interface, but the C library follows normal ABI-change-sensitive versioning, so programs that link only against the C library should work without relinking when GEOS is upgraded. For this reason, it is recommended to use the C API for software that is intended to be dynamically linked to a system install of GEOS.
The geos-config
program can be used to determine appropriate compiler and
linker flags for building against the C library:
CFLAGS += `geos-config --cflags`
LDFLAGS += `geos-config --ldflags` -lgeos_c
All functionality of the C API is available through the geos_c.h
header file.
Documentation for the C API is provided via comments in the geos_c.h
header
file. C API usage examples can be found in the GEOS unit tests and in the
source code of software that uses GEOS, such as PostGIS and the sf package
for R.
Using the C++ interface
The C++ interface to GEOS provides a more natural API for C++ programs, as well as additional functionality that has not been exposed in the C API. However, developers who decide to use the C++ interface should be aware that GEOS does not promise API or ABI stability of the C++ API between releases. Breaking changes in the C++ API/ABI are not typically announced or included in the NEWS file.
The C++ library name will change on every minor release.
The geos-config
program can be used to determine appropriate compiler and
linker flags for building against the C++ library:
CFLAGS += `geos-config --cflags`
LDFLAGS += `geos-config --ldflags` -lgeos
A compiler warning may be issued when building against the C++ library. To
remove the compiler warning, define USE_UNSTABLE_GEOS_CPP_API
somewhere
in the program.
Commonly-used functionality of GEOS is available in the geos.h
header file.
Less-common functionality can be accessed by including headers for individual
classes, e.g. #include <geos/algorithm/distance/DiscreteHausdorffDistance.h>
.
#include <geos.h>
Documentation for the C++ API is available at https://geos.osgeo.org/doxygen/,
and basic C++ usage examples can be found in doc/example.cpp
.
Scripting language bindings
Ruby
Ruby bindings are part of GEOS. To build, use the --enable-ruby
option
when configuring:
./configure .. --enable-ruby
PHP
PHP bindings for GEOS are available separately from php-geos.
Python
Python bindings are available via:
- Shapely package.
- Calling functions from
libgeos_c
via Python ctypes.
Documentation
Doxygen documentation can be generated using either the autotools or CMake build systems.
Using Autotools:
cd doc
make doxygen-html
Using CMake:
cmake -DBUILD_DOCUMENTATION=YES
make docs
Style
To format your code into the desired style, use the astyle version included in source tree:
tools/astyle.sh <yourfile.cpp>