Julia bindings for the xtensor C++ multi-dimensional array library.
-
xtensor
is a C++ library for multi-dimensional arrays enabling numpy-style broadcasting and lazy computing. -
xtensor-julia
enables inplace use of julia 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 Julia bindings for xtensor
are based on the libcxxwrap C++ library.
To get started with using xtensor-julia
, check out the full documentation
http://xtensor-julia.readthedocs.io/
xtensor-julia offers two container types wrapping julia arrays inplace to provide an xtensor semantics
jltensor
jlarray
.
Both containers enable the numpy-style APIs of xtensor (see the numpy to xtensor cheat sheet).
-
On the one hand,
jlarray
has a dynamic number of dimensions. It can be reshaped dynamically and the new shape is reflected on the Julia side. -
On the other hand
jltensor
has a compile time number of dimensions, specified with a template parameter. Shapes ofjltensor
instances are stack allocated, makingjltensor
a significantly faster expression thanjlarray
.
C++ code
#include <numeric> // Standard library import for std::accumulate
#include <cxx_wrap.hpp> // libcxxwrap import to define Julia bindings
#include "xtensor-julia/jltensor.hpp" // Import the jltensor container definition
#include "xtensor/xmath.hpp" // xtensor import for the C++ universal functions
double sum_of_sines(xt::jltensor<double, 2> m)
{
auto sines = xt::sin(m); // sines does not actually hold values.
return std::accumulate(sines.cbegin(), sines.cend(), 0.0);
}
JLCXX_MODULE define_julia_module(jlcxx::Module& mod)
{
mod.method("sum_of_sines", sum_of_sines);
}
Julia Code
using xtensor_julia_test
arr = [[1.0 2.0]
[3.0 4.0]]
s = sum_of_sines(arr)
s
Outputs
1.1350859243855171
C++ code
#include <cxx_wrap.hpp>
#include "xtensor-julia/jlvectorize.hpp"
double scalar_func(double i, double j)
{
return std::sin(i) - std::cos(j);
}
JLCXX_MODULE define_julia_module(jlcxx::Module& mod)
{
mod.method("vectorized_func", xt::jlvectorize(scalar_func));
}
Julia Code
using xtensor_julia_test
x = [[ 0.0 1.0 2.0 3.0 4.0]
[ 5.0 6.0 7.0 8.0 9.0]
[10.0 11.0 12.0 13.0 14.0]]
y = [1.0, 2.0, 3.0, 4.0, 5.0]
z = vectorized_func(x, y)
z
Outputs
[[-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]]
xtensor-julia
a header-only C++ library. It has been packaged for the mamba (or conda) package manager.
mamba install xtensor-julia -c conda-forge
xtensor-r
can be installed from source with cmake in any installation prefix. For example, on unix systems
cmake -D CMAKE_INSTALL_PREFIX=/prefix/path/
make
make install
We also provide a Julia package for xtensor, which has been packaged for both conda and Pkg (Julia's package manager). The repository for the Julia package is https://github.com/xtensor-stack/Xtensor.jl.
To install the Julia package:
using Pkg; Pkg.add("Xtensor");
The Julia available from the Julia package manager vendors the headers for xtensor-julia
, xtensor,
xtland
xsimd`.
xtensor-julia
's documentation is built with three tools
While doxygen must be installed separately, you can install breathe by typing
pip install breathe
Breathe can also be installed with conda
conda install -c conda-forge breathe
Finally, build the documentation with
make html
from the docs
subdirectory.
cmake -D BUILD_TESTS=ON ..
xtensor-julia
depends on the xtensor
and libcxxwrap-julia
libraries
xtensor-julia |
xtensor |
libcxxwrap |
julia |
---|---|---|---|
master | ^0.24.0 | >=0.9,<0.10 | >=1.6.4,<2.0 |
0.10.2 | ^0.24.0 | >=0.0,<0.10 | >=1.6.4,<2.0 |
0.10.1 | ^0.24.0 | >=0.8.3,<0.9 | >=1.6.4,<2.0 |
0.10.0 | ^0.24.0 | >=0.8.3,<0.9 | >=1.6.4,<2.0 |
0.9.0 | ^0.21.2 | >=0.5.3,<0.6 | >=1.0.0,<1.1 |
These dependencies are automatically resolved when using the Julia package manager.
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.