Python bindings for the xtensor C++ multi-dimensional array library.
-
xtensoris a C++ library for multi-dimensional arrays enabling numpy-style broadcasting and lazy computing. -
xtensor-pythonenables inplace use of numpy arrays in C++ with all the benefits fromxtensor- C++ universal function and broadcasting
- STL - compliant APIs.
- A broad coverage of numpy APIs (see the numpy to xtensor cheat sheet).
The Python bindings for xtensor are based on the pybind11 C++ library, which enables seemless interoperability between C++ and Python.
xtensor-python is a header-only library. We provide a package for the conda package manager.
conda install -c conda-forge xtensor-pythonxtensor-python depends on the xtensor and pybind11 libraries
xtensor-python |
xtensor |
pybind11 |
|---|---|---|
| master | ^0.8.1 | ^2.1.0 |
| 0.9.0 | ^0.8.1 | ^2.1.0 |
| 0.8.2 | ^0.8.1 | ^2.1.0 |
| 0.8.1 | ^0.8.1 | ^2.1.0 |
| 0.8.0 | ^0.8.1 | ^2.1.0 |
| 0.7.1 | 0.7.3 | ^2.0.0 |
| 0.7.0 | 0.7.2 | ^2.0.0 |
These dependencies are automatically resolved when using the conda package manager.
xtensor-python offers two container types wrapping numpy arrays inplace to provide an xtensor semantics
pytensorpyarray.
Both containers enable the numpy-style APIs of xtensor (see the numpy to xtensor cheat sheet).
-
On the one hand,
pyarrayhas a dynamic number of dimensions. Just like numpy arrays, it can be reshaped with a shape of a different length (and the new shape is reflected on the python side). -
On the other hand
pytensorhas a compile time number of dimensions, specified with a template parameter. Shapes ofpytensorinstances are stack allocated, makingpytensora significantly faster expression thanpyarray.
C++ code
#include <numeric> // Standard library import for std::accumulate
#include "pybind11/pybind11.h" // Pybind11 import to define Python bindings
#include "xtensor/xmath.hpp" // xtensor import for the C++ universal functions
#include "xtensor-python/pyarray.hpp" // Numpy bindings
double sum_of_sines(xt::pyarray<double> &m)
{
auto sines = xt::sin(m); // sines does not actually hold any value, which are only computed upon access
return std::accumulate(sines.begin(), sines.end(), 0.0);
}
PYBIND11_PLUGIN(xtensor_python_test)
{
pybind11::module m("xtensor_python_test", "Test module for xtensor python bindings");
m.def("sum_of_sines", sum_of_sines, "Computes the sum of the sines of the values of the input array");
return m.ptr();
}Python Code
import numpy as np
import xtensor_python_test as xt
a = np.arange(15).reshape(3, 5)
s = xt.sum_of_sines(v)
sOutputs
1.2853996391883833
C++ code
#include "pybind11/pybind11.h"
#include "xtensor-python/pyvectorize.hpp"
#include <numeric>
#include <cmath>
namespace py = pybind11;
double scalar_func(double i, double j)
{
return std::sin(i) - std::cos(j);
}
PYBIND11_PLUGIN(xtensor_python_test)
{
py::module m("xtensor_python_test", "Test module for xtensor python bindings");
m.def("vectorized_func", xt::pyvectorize(scalar_func), "");
return m.ptr();
}Python Code
import numpy as np
import xtensor_python_test as xt
x = np.arange(15).reshape(3, 5)
y = [1, 2, 3, 4, 5]
z = xt.vectorized_func(x, y)
zOutputs
[[-0.540302, 1.257618, 1.89929 , 0.794764, -1.040465],
[-1.499227, 0.136731, 1.646979, 1.643002, 0.128456],
[-1.084323, -0.583843, 0.45342 , 1.073811, 0.706945]]
We provide a package for the conda package manager.
conda install -c conda-forge xtensor-pythonThis will pull the dependencies to xtensor-python, that is pybind11 and xtensor.
A template for a project making use of xtensor-python is available in the form of a cookie cutter here.
This project is meant to help library authors get started with the xtensor python bindings.
It produces a project following the best practices for the packaging and distribution of Python extensions based on xtensor-python, including a setup.py file and a conda recipe.
Testing xtensor-python requires pytest
py.test .To pick up changes in xtensor-python while rebuilding, delete the build/ directory.
xtensor-python's documentation is built with three tools
While doxygen must be installed separately, you can install breathe by typing
pip install breatheBreathe can also be installed with conda
conda install -c conda-forge breatheFinally, build the documentation with
make htmlfrom the docs subdirectory.
We use a shared copyright model that enables all contributors to maintain the copyright on their contributions.
This software is licensed under the BSD-3-Clause license. See the LICENSE file for details.