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{
lib,
buildPythonPackage,
cmake,
cvxopt,
fetchPypi,
future,
numpy,
oldest-supported-numpy,
pytestCheckHook,
pythonOlder,
pythonRelaxDepsHook,
qdldl,
scipy,
setuptools-scm,
}:
buildPythonPackage rec {
pname = "osqp";
version = "0.6.7";
pyproject = true;
disabled = pythonOlder "3.7";
src = fetchPypi {
inherit pname version;
hash = "sha256-O3ARmFV6SZxg67U9fyUBkGSFXHMvTz+84gVdeJ5Tph0=";
};
dontUseCmakeConfigure = true;
nativeBuildInputs = [
cmake
oldest-supported-numpy
setuptools-scm
pythonRelaxDepsHook
];
pythonRelaxDeps = [ "scipy" ];
propagatedBuildInputs = [
future
numpy
qdldl
scipy
];
nativeCheckInputs = [
cvxopt
pytestCheckHook
];
pythonImportsCheck = [ "osqp" ];
disabledTests =
[
# Need an unfree license package - mkl
"test_issue14"
]
# disable tests failing after scipy 1.12 update
# https://github.com/osqp/osqp-python/issues/121
# re-enable once unit tests fixed
++ [
"feasibility_tests"
"polish_tests"
"update_matrices_tests"
];
meta = with lib; {
description = "Operator Splitting QP Solver";
longDescription = ''
Numerical optimization package for solving problems in the form
minimize 0.5 x' P x + q' x
subject to l <= A x <= u
where x in R^n is the optimization variable
'';
homepage = "https://osqp.org/";
downloadPage = "https://github.com/oxfordcontrol/osqp-python/releases";
license = licenses.asl20;
maintainers = with maintainers; [ drewrisinger ];
};
}
|