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C++ implementation of the Ramer-Douglas-Peucker algorithm (binding to python via pybind11)

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Ramer-Douglas-Peucker Algorithm (c++ binding for python via pybind11)

A speed up (~8000x) version of python version of rdp.

C++/pybind11/NumPy implementation of the Ramer-Douglas-Peucker algorithm (Ramer 1972; Douglas and Peucker 1973) for 2D and 3D data.

The Ramer-Douglas-Peucker algorithm is an algorithm for reducing the number of points in a curve that is approximated by a series of points.

Installation

via pip

pip install -U pybind11-rdp

from source

git clone --recursive https://github.com/cubao/pybind11-rdp
pip install ./pybind11-rdp

Or

pip install git+https://github.com/cubao/pybind11-rdp.git

(you can build wheels for later reuse by pip wheel git+https://github.com/cubao/pybind11-rdp.git)

Usage

Test installation: python -c 'from pybind11_rdp import rdp; print(rdp([[1, 1], [2, 2], [3, 3], [4, 4]]))'

Simple pythonic interface:

from pybind11_rdp import rdp

rdp([[1, 1], [2, 2], [3, 3], [4, 4]])
[[1, 1], [4, 4]]

With epsilon=0.5:

rdp([[1, 1], [1, 1.1], [2, 2]], epsilon=0.5)
[[1.0, 1.0], [2.0, 2.0]]

Numpy interface:

import numpy as np
from pybind11_rdp import rdp

rdp(np.array([1, 1, 2, 2, 3, 3, 4, 4]).reshape(4, 2))
array([[1, 1],
       [4, 4]])

Tests

make python_install
make python_test

Notice

As fhirschmann/rdp#13 points out, pdist in rdp is WRONGLY Point-to-Line distance. We use Point-to-LineSegment distance.

from rdp import rdp
print(rdp([[0, 0], [10, 0.1], [1, 0]], epsilon=1.0)) # wrong
# [[0.0, 0.0],
#  [1.0, 0.0]]

from pybind11_rdp import rdp
print(rdp([[0, 0], [10, 0.1], [1, 0]], epsilon=1.0)) # correct
# [[ 0.   0. ]
#  [10.   0.1]
#  [ 1.   0. ]]

References

Douglas, David H, and Thomas K Peucker. 1973. “Algorithms for the Reduction of the Number of Points Required to Represent a Digitized Line or Its Caricature.” Cartographica: The International Journal for Geographic Information and Geovisualization 10 (2): 112–122.

Ramer, Urs. 1972. “An Iterative Procedure for the Polygonal Approximation of Plane Curves.” Computer Graphics and Image Processing 1 (3): 244–256.