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test_numpy_dtypes: Add test for py::vectorize() (#2260)
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@ -259,7 +259,26 @@ TEST_SUBMODULE(numpy_dtypes, m) {
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catch (...) { return; }
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catch (...) { return; }
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// typeinfo may be registered before the dtype descriptor for scalar casts to work...
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// typeinfo may be registered before the dtype descriptor for scalar casts to work...
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py::class_<SimpleStruct>(m, "SimpleStruct");
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py::class_<SimpleStruct>(m, "SimpleStruct")
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// Explicit construct to ensure zero-valued initialization.
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.def(py::init([]() { return SimpleStruct(); }))
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.def_readwrite("bool_", &SimpleStruct::bool_)
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.def_readwrite("uint_", &SimpleStruct::uint_)
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.def_readwrite("float_", &SimpleStruct::float_)
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.def_readwrite("ldbl_", &SimpleStruct::ldbl_)
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.def("astuple", [](const SimpleStruct& self) {
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return py::make_tuple(self.bool_, self.uint_, self.float_, self.ldbl_);
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})
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.def_static("fromtuple", [](const py::tuple tup) {
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if (py::len(tup) != 4) {
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throw py::cast_error("Invalid size");
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}
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return SimpleStruct{
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tup[0].cast<bool>(),
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tup[1].cast<uint32_t>(),
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tup[2].cast<float>(),
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tup[3].cast<long double>()};
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});
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PYBIND11_NUMPY_DTYPE(SimpleStruct, bool_, uint_, float_, ldbl_);
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PYBIND11_NUMPY_DTYPE(SimpleStruct, bool_, uint_, float_, ldbl_);
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PYBIND11_NUMPY_DTYPE(SimpleStructReordered, bool_, uint_, float_, ldbl_);
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PYBIND11_NUMPY_DTYPE(SimpleStructReordered, bool_, uint_, float_, ldbl_);
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@ -462,10 +481,16 @@ TEST_SUBMODULE(numpy_dtypes, m) {
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m.def("buffer_to_dtype", [](py::buffer& buf) { return py::dtype(buf.request()); });
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m.def("buffer_to_dtype", [](py::buffer& buf) { return py::dtype(buf.request()); });
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// test_scalar_conversion
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// test_scalar_conversion
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m.def("f_simple", [](SimpleStruct s) { return s.uint_ * 10; });
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auto f_simple = [](SimpleStruct s) { return s.uint_ * 10; };
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m.def("f_simple", f_simple);
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m.def("f_packed", [](PackedStruct s) { return s.uint_ * 10; });
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m.def("f_packed", [](PackedStruct s) { return s.uint_ * 10; });
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m.def("f_nested", [](NestedStruct s) { return s.a.uint_ * 10; });
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m.def("f_nested", [](NestedStruct s) { return s.a.uint_ * 10; });
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// test_vectorize
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m.def("f_simple_vectorized", py::vectorize(f_simple));
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auto f_simple_pass_thru = [](SimpleStruct s) { return s; };
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m.def("f_simple_pass_thru_vectorized", py::vectorize(f_simple_pass_thru));
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// test_register_dtype
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// test_register_dtype
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m.def("register_dtype", []() { PYBIND11_NUMPY_DTYPE(SimpleStruct, bool_, uint_, float_, ldbl_); });
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m.def("register_dtype", []() { PYBIND11_NUMPY_DTYPE(SimpleStruct, bool_, uint_, float_, ldbl_); });
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@ -138,6 +138,10 @@ def test_recarray(simple_dtype, packed_dtype):
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assert_equal(arr, elements, simple_dtype)
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assert_equal(arr, elements, simple_dtype)
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assert_equal(arr, elements, packed_dtype)
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assert_equal(arr, elements, packed_dtype)
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# Show what recarray's look like in NumPy.
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assert type(arr[0]) == np.void
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assert type(arr[0].item()) == tuple
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if dtype == simple_dtype:
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if dtype == simple_dtype:
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assert m.print_rec_simple(arr) == [
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assert m.print_rec_simple(arr) == [
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"s:0,0,0,-0",
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"s:0,0,0,-0",
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@ -289,6 +293,56 @@ def test_scalar_conversion():
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assert 'incompatible function arguments' in str(excinfo.value)
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assert 'incompatible function arguments' in str(excinfo.value)
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def test_vectorize():
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n = 3
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array = m.create_rec_simple(n)
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values = m.f_simple_vectorized(array)
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np.testing.assert_array_equal(values, [0, 10, 20])
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array_2 = m.f_simple_pass_thru_vectorized(array)
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np.testing.assert_array_equal(array, array_2)
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def test_cls_and_dtype_conversion(simple_dtype):
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s = m.SimpleStruct()
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assert s.astuple() == (False, 0, 0., 0.)
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assert m.SimpleStruct.fromtuple(s.astuple()).astuple() == s.astuple()
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s.uint_ = 2
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assert m.f_simple(s) == 20
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# Try as recarray of shape==(1,).
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s_recarray = np.array([(False, 2, 0., 0.)], dtype=simple_dtype)
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# Show that this will work for vectorized case.
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np.testing.assert_array_equal(m.f_simple_vectorized(s_recarray), [20])
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# Show as a scalar that inherits from np.generic.
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s_scalar = s_recarray[0]
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assert isinstance(s_scalar, np.void)
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assert m.f_simple(s_scalar) == 20
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# Show that an *array* scalar (np.ndarray.shape == ()) does not convert.
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# More specifically, conversion to SimpleStruct is not implicit.
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s_recarray_scalar = s_recarray.reshape(())
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assert isinstance(s_recarray_scalar, np.ndarray)
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assert s_recarray_scalar.dtype == simple_dtype
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with pytest.raises(TypeError) as excinfo:
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m.f_simple(s_recarray_scalar)
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assert 'incompatible function arguments' in str(excinfo.value)
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# Explicitly convert to m.SimpleStruct.
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assert m.f_simple(
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m.SimpleStruct.fromtuple(s_recarray_scalar.item())) == 20
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# Show that an array of dtype=object does *not* convert.
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s_array_object = np.array([s])
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assert s_array_object.dtype == object
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with pytest.raises(TypeError) as excinfo:
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m.f_simple_vectorized(s_array_object)
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assert 'incompatible function arguments' in str(excinfo.value)
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# Explicitly convert to `np.array(..., dtype=simple_dtype)`
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s_array = np.array([s.astuple()], dtype=simple_dtype)
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np.testing.assert_array_equal(m.f_simple_vectorized(s_array), [20])
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def test_register_dtype():
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def test_register_dtype():
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with pytest.raises(RuntimeError) as excinfo:
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with pytest.raises(RuntimeError) as excinfo:
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m.register_dtype()
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m.register_dtype()
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