Pyclipper is a Cython wrapper exposing public functions and classes of the C++ translation of the Angus Johnson's Clipper library (ver. 6.4.2).
Pyclipper releases were tested with Python 2.7 and 3.4 on Linux (Ubuntu 14.04, x64) and Windows (8.1, x64).
Source code is available on GitHub. The package is published on PyPI.
Clipper - an open source freeware library for clipping and offsetting lines and polygons.
The Clipper library performs line & polygon clipping - intersection, union, difference & exclusive-or, and line & polygon offsetting. The library is based on Vatti's clipping algorithm.
Cython dependency is optional. Cpp sources generated with Cython are available in releases.
Note on using the setup.py
:
setup.py
operates in 2 modes that are based on the presence of the
dev
file in the root of the project.
- When
dev
is present, Cython will be used to compile the.pyx
sources. This is the development mode (as you get it in the git repository). - When
dev
is absent, C/C++ compiler will be used to compile the.cpp
sources (that were prepared in in the development mode). This is the distribution mode (as you get it on PyPI).
This way the package can be used without or with an incompatible version of Cython.
The idea comes from Matt Shannon's bandmat library.
Cython not required.
pip install pyclipper
Cython required.
Clone the repository:
git clone [email protected]:fonttools/pyclipper.git
Install:
python setup.py install
After every modification of .pyx
files compile with Cython:
python setup.py build_ext --inplace
Clipper can be compiled with the following preprocessor directives: use_int32
, use_xyz
, use_lines
and use_deprecated
.
Among these the use_int32
and use_lines
can be used with Pyclipper.
use_int32
- when enabled 32bit ints are used instead of 64bit ints. This improve performance but coordinate values are limited to the range +/- 46340. In Pyclipper this directive is disabled by default.use_lines
- enables line clipping. Adds a very minor cost to performance. In Pyclipper this directive is enabled by default (since version 0.9.2b0).
In case you would want to change these settings, clone this repository and change the define_macros
collection (setup.py
, pyclipper extension definition). Add a set like ('use_int32', 1)
to enable the directive, or remove the set to disable it. After that you need to rebuild the package.
This wrapper library tries to follow naming conventions of the original library.
ClipperLib
namespace is represented by thepyclipper
module,- classes
Clipper
andClipperOffset
->Pyclipper
andPyclipperOffset
, - when Clipper is overloading functions with different number of
parameters or different types (eg.
Clipper.Execute
, one function fills a list of paths the other PolyTree) that becomesPyclipper.Execute
andPyclipper.Execute2
.
Basic clipping example (based on Angus Johnson's Clipper library):
import pyclipper
subj = (
((180, 200), (260, 200), (260, 150), (180, 150)),
((215, 160), (230, 190), (200, 190))
)
clip = ((190, 210), (240, 210), (240, 130), (190, 130))
pc = pyclipper.Pyclipper()
pc.AddPath(clip, pyclipper.PT_CLIP, True)
pc.AddPaths(subj, pyclipper.PT_SUBJECT, True)
solution = pc.Execute(pyclipper.CT_INTERSECTION, pyclipper.PFT_EVENODD, pyclipper.PFT_EVENODD)
# solution (a list of paths): [[[240, 200], [190, 200], [190, 150], [240, 150]], [[200, 190], [230, 190], [215, 160]]]
Basic offset example:
import pyclipper
subj = ((180, 200), (260, 200), (260, 150), (180, 150))
pco = pyclipper.PyclipperOffset()
pco.AddPath(subj, pyclipper.JT_ROUND, pyclipper.ET_CLOSEDPOLYGON)
solution = pco.Execute(-7.0)
# solution (a list of paths): [[[253, 193], [187, 193], [187, 157], [253, 157]]]
The Clipper library uses integers instead of floating point values to
preserve numerical robustness. If you need to scale coordinates of your polygons, this library provides helper functions scale_to_clipper()
and scale_from_clipper()
to achieve that.
In previous version of Pyclipper (0.9.3b0
) polygons could be automatically scaled using the SCALING_FACTOR
variable. This was removed in version 1.0.0
due to inexact conversions related to floating point operations. This way the library now provides the original numerical robustness of the base library.
The SCALING_FACTOR
removal breaks backward compatibility.
For an explanation and help with migration, see https://github.com/fonttools/pyclipper/wiki/Deprecating-SCALING_FACTOR.
- The Clipper library is written by Angus Johnson,
- This wrapper was initially written by Maxime Chalton,
- Adaptions to make it work with version 5 written by Lukas Treyer,
- Adaptions to make it work with version 6.2.1 and PyPI package written by Gregor Ratajc,
SCALING_FACTOR
removal and additions to documentation by Michael Schwarz (@Feuermurmel),- Bug fix sympy.Zero is not a collection by Jamie Bull (@jamiebull1),
- Travis CI and Appveyor CI integration for continuous builds of wheel packages by Cosimo Lupo (@anthrotype).
The package is maintained by Cosimo Lupo (@anthrotype).
- Pyclipper is available under MIT license.
- The core Clipper library is available under Boost Software License. Freeware for both open source and commercial applications.
- Updated embedded Clipper library to version 6.4.2.
- Added support for Python 3.6.
- added Travis CI and Appveyor CI to build wheel packages (thanks to @anthrotype)
- bug fix: sympy.Zero recognized as a collection (thanks to @jamiebull1)
- (breaks backwards compatibility) removes SCALING_FACTOR (thanks to @Feuermurmel)
- Applied SCALING_FACTOR to the relevant function parameters and class properties
- Refactored tests
- bug fix: Fix setting of the PyPolyNode.IsHole property
- enable preprocessor directive
use_lines
by default, - bug fix: PyPolyNode.Contour that is now one path and not a list of paths as it was previously.