tests/test_numpy_scalars.cpp - third_party/github/pybind/pybind11 - Git at Google

 /*
   tests/test_numpy_scalars.cpp -- strict NumPy scalars

   Copyright (c) 2021 Steve R. Sun

   All rights reserved. Use of this source code is governed by a
   BSD-style license that can be found in the LICENSE file.
 */

 #include <pybind11/numpy.h>

 #include "pybind11_tests.h"

 #include <complex>
 #include <cstdint>

 namespace py = pybind11;

 namespace pybind11_test_numpy_scalars {

 template <typename T>
 struct add {
     T x;
     explicit add(T x) : x(x) {}
     T operator()(T y) const { return static_cast<T>(x + y); }
 };

 template <typename T, typename F>
 void register_test(py::module &m, const char *name, F &&func) {
     m.def((std::string("test_") + name).c_str(),
           [=](py::numpy_scalar<T> v) {
               return std::make_tuple(name, py::make_scalar(static_cast<T>(func(v.value))));
           },
           py::arg("x"));
 }

 } // namespace pybind11_test_numpy_scalars

 using namespace pybind11_test_numpy_scalars;

 TEST_SUBMODULE(numpy_scalars, m) {
     using cfloat = std::complex<float>;
     using cdouble = std::complex<double>;

     register_test<bool>(m, "bool", [](bool x) { return !x; });
     register_test<int8_t>(m, "int8", add<int8_t>(-8));
     register_test<int16_t>(m, "int16", add<int16_t>(-16));
     register_test<int32_t>(m, "int32", add<int32_t>(-32));
     register_test<int64_t>(m, "int64", add<int64_t>(-64));
     register_test<uint8_t>(m, "uint8", add<uint8_t>(8));
     register_test<uint16_t>(m, "uint16", add<uint16_t>(16));
     register_test<uint32_t>(m, "uint32", add<uint32_t>(32));
     register_test<uint64_t>(m, "uint64", add<uint64_t>(64));
     register_test<float>(m, "float32", add<float>(0.125f));
     register_test<double>(m, "float64", add<double>(0.25f));
     register_test<cfloat>(m, "complex64", add<cfloat>({0, -0.125f}));
     register_test<cdouble>(m, "complex128", add<cdouble>({0, -0.25f}));

     m.def("test_eq",
           [](py::numpy_scalar<int32_t> a, py::numpy_scalar<int32_t> b) { return a == b; });
     m.def("test_ne",
           [](py::numpy_scalar<int32_t> a, py::numpy_scalar<int32_t> b) { return a != b; });
 }
	/*
	tests/test_numpy_scalars.cpp -- strict NumPy scalars

	Copyright (c) 2021 Steve R. Sun

	All rights reserved. Use of this source code is governed by a
	BSD-style license that can be found in the LICENSE file.
	*/

	#include <pybind11/numpy.h>

	#include "pybind11_tests.h"

	#include <complex>
	#include <cstdint>

	namespace py = pybind11;

	namespace pybind11_test_numpy_scalars {

	template <typename T>
	struct add {
	T x;
	explicit add(T x) : x(x) {}
	T operator()(T y) const { return static_cast<T>(x + y); }
	};

	template <typename T, typename F>
	void register_test(py::module &m, const char *name, F &&func) {
	m.def((std::string("test_") + name).c_str(),
	[=](py::numpy_scalar<T> v) {
	return std::make_tuple(name, py::make_scalar(static_cast<T>(func(v.value))));
	},
	py::arg("x"));
	}

	} // namespace pybind11_test_numpy_scalars

	using namespace pybind11_test_numpy_scalars;

	TEST_SUBMODULE(numpy_scalars, m) {
	using cfloat = std::complex<float>;
	using cdouble = std::complex<double>;

	register_test<bool>(m, "bool", [](bool x) { return !x; });
	register_test<int8_t>(m, "int8", add<int8_t>(-8));
	register_test<int16_t>(m, "int16", add<int16_t>(-16));
	register_test<int32_t>(m, "int32", add<int32_t>(-32));
	register_test<int64_t>(m, "int64", add<int64_t>(-64));
	register_test<uint8_t>(m, "uint8", add<uint8_t>(8));
	register_test<uint16_t>(m, "uint16", add<uint16_t>(16));
	register_test<uint32_t>(m, "uint32", add<uint32_t>(32));
	register_test<uint64_t>(m, "uint64", add<uint64_t>(64));
	register_test<float>(m, "float32", add<float>(0.125f));
	register_test<double>(m, "float64", add<double>(0.25f));
	register_test<cfloat>(m, "complex64", add<cfloat>({0, -0.125f}));
	register_test<cdouble>(m, "complex128", add<cdouble>({0, -0.25f}));

	m.def("test_eq",
	[](py::numpy_scalar<int32_t> a, py::numpy_scalar<int32_t> b) { return a == b; });
	m.def("test_ne",
	[](py::numpy_scalar<int32_t> a, py::numpy_scalar<int32_t> b) { return a != b; });
	}