/*
tests/test_numpy_dtypes.cpp -- Structured and compound NumPy dtypes
Copyright (c) 2016 Ivan Smirnov
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_tests.h"
#include <pybind11/numpy.h>
#ifdef __GNUC__
#define PYBIND11_PACKED(cls) cls __attribute__((__packed__))
#else
#define PYBIND11_PACKED(cls) __pragma(pack(push, 1)) cls __pragma(pack(pop))
#endif
namespace py = pybind11;
struct SimpleStruct {
bool bool_;
uint32_t uint_;
float float_;
long double ldbl_;
};
std::ostream& operator<<(std::ostream& os, const SimpleStruct& v) {
return os << "s:" << v.bool_ << "," << v.uint_ << "," << v.float_ << "," << v.ldbl_;
}
struct SimpleStructReordered {
bool bool_;
float float_;
uint32_t uint_;
long double ldbl_;
};
PYBIND11_PACKED(struct PackedStruct {
bool bool_;
uint32_t uint_;
float float_;
long double ldbl_;
});
std::ostream& operator<<(std::ostream& os, const PackedStruct& v) {
return os << "p:" << v.bool_ << "," << v.uint_ << "," << v.float_ << "," << v.ldbl_;
}
PYBIND11_PACKED(struct NestedStruct {
SimpleStruct a;
PackedStruct b;
});
std::ostream& operator<<(std::ostream& os, const NestedStruct& v) {
return os << "n:a=" << v.a << ";b=" << v.b;
}
struct PartialStruct {
bool bool_;
uint32_t uint_;
float float_;
uint64_t dummy2;
long double ldbl_;
};
struct PartialNestedStruct {
uint64_t dummy1;
PartialStruct a;
uint64_t dummy2;
};
struct UnboundStruct { };
struct StringStruct {
char a[3];
std::array<char, 3> b;
};
struct ComplexStruct {
std::complex<float> cflt;
std::complex<double> cdbl;
};
std::ostream& operator<<(std::ostream& os, const ComplexStruct& v) {
return os << "c:" << v.cflt << "," << v.cdbl;
}
struct ArrayStruct {
char a[3][4];
int32_t b[2];
std::array<uint8_t, 3> c;
std::array<float, 2> d[4];
};
PYBIND11_PACKED(struct StructWithUglyNames {
int8_t __x__;
uint64_t __y__;
});
enum class E1 : int64_t { A = -1, B = 1 };
enum E2 : uint8_t { X = 1, Y = 2 };
PYBIND11_PACKED(struct EnumStruct {
E1 e1;
E2 e2;
});
std::ostream& operator<<(std::ostream& os, const StringStruct& v) {
os << "a='";
for (size_t i = 0; i < 3 && v.a[i]; i++) os << v.a[i];
os << "',b='";
for (size_t i = 0; i < 3 && v.b[i]; i++) os << v.b[i];
return os << "'";
}
std::ostream& operator<<(std::ostream& os, const ArrayStruct& v) {
os << "a={";
for (int i = 0; i < 3; i++) {
if (i > 0)
os << ',';
os << '{';
for (int j = 0; j < 3; j++)
os << v.a[i][j] << ',';
os << v.a[i][3] << '}';
}
os << "},b={" << v.b[0] << ',' << v.b[1];
os << "},c={" << int(v.c[0]) << ',' << int(v.c[1]) << ',' << int(v.c[2]);
os << "},d={";
for (int i = 0; i < 4; i++) {
if (i > 0)
os << ',';
os << '{' << v.d[i][0] << ',' << v.d[i][1] << '}';
}
return os << '}';
}
std::ostream& operator<<(std::ostream& os, const EnumStruct& v) {
return os << "e1=" << (v.e1 == E1::A ? "A" : "B") << ",e2=" << (v.e2 == E2::X ? "X" : "Y");
}
template <typename T>
py::array mkarray_via_buffer(size_t n) {
return py::array(py::buffer_info(nullptr, sizeof(T),
py::format_descriptor<T>::format(),
1, { n }, { sizeof(T) }));
}
#define SET_TEST_VALS(s, i) do { \
s.bool_ = (i) % 2 != 0; \
s.uint_ = (uint32_t) (i); \
s.float_ = (float) (i) * 1.5f; \
s.ldbl_ = (long double) (i) * -2.5L; } while (0)
template <typename S>
py::array_t<S, 0> create_recarray(size_t n) {
auto arr = mkarray_via_buffer<S>(n);
auto req = arr.request();
auto ptr = static_cast<S*>(req.ptr);
for (size_t i = 0; i < n; i++) {
SET_TEST_VALS(ptr[i], i);
}
return arr;
}
template <typename S>
py::list print_recarray(py::array_t<S, 0> arr) {
const auto req = arr.request();
const auto ptr = static_cast<S*>(req.ptr);
auto l = py::list();
for (ssize_t i = 0; i < req.size; i++) {
std::stringstream ss;
ss << ptr[i];
l.append(py::str(ss.str()));
}
return l;
}
py::array_t<int32_t, 0> test_array_ctors(int i) {
using arr_t = py::array_t<int32_t, 0>;
std::vector<int32_t> data { 1, 2, 3, 4, 5, 6 };
std::vector<ssize_t> shape { 3, 2 };
std::vector<ssize_t> strides { 8, 4 };
auto ptr = data.data();
auto vptr = (void *) ptr;
auto dtype = py::dtype("int32");
py::buffer_info buf_ndim1(vptr, 4, "i", 6);
py::buffer_info buf_ndim1_null(nullptr, 4, "i", 6);
py::buffer_info buf_ndim2(vptr, 4, "i", 2, shape, strides);
py::buffer_info buf_ndim2_null(nullptr, 4, "i", 2, shape, strides);
auto fill = [](py::array arr) {
auto req = arr.request();
for (int i = 0; i < 6; i++) ((int32_t *) req.ptr)[i] = i + 1;
return arr;
};
switch (i) {
// shape: (3, 2)
case 10: return arr_t(shape, strides, ptr);
case 11: return py::array(shape, strides, ptr);
case 12: return py::array(dtype, shape, strides, vptr);
case 13: return arr_t(shape, ptr);
case 14: return py::array(shape, ptr);
case 15: return py::array(dtype, shape, vptr);
case 16: return arr_t(buf_ndim2);
case 17: return py::array(buf_ndim2);
// shape: (3, 2) - post-fill
case 20: return fill(arr_t(shape, strides));
case 21: return py::array(shape, strides, ptr); // can't have nullptr due to templated ctor
case 22: return fill(py::array(dtype, shape, strides));
case 23: return fill(arr_t(shape));
case 24: return py::array(shape, ptr); // can't have nullptr due to templated ctor
case 25: return fill(py::array(dtype, shape));
case 26: return fill(arr_t(buf_ndim2_null));
case 27: return fill(py::array(buf_ndim2_null));
// shape: (6, )
case 30: return arr_t(6, ptr);
case 31: return py::array(6, ptr);
case 32: return py::array(dtype, 6, vptr);
case 33: return arr_t(buf_ndim1);
case 34: return py::array(buf_ndim1);
// shape: (6, )
case 40: return fill(arr_t(6));
case 41: return py::array(6, ptr); // can't have nullptr due to templated ctor
case 42: return fill(py::array(dtype, 6));
case 43: return fill(arr_t(buf_ndim1_null));
case 44: return fill(py::array(buf_ndim1_null));
}
return arr_t();
}
py::list test_dtype_ctors() {
py::list list;
list.append(py::dtype("int32"));
list.append(py::dtype(std::string("float64")));
list.append(py::dtype::from_args(py::str("bool")));
py::list names, offsets, formats;
py::dict dict;
names.append(py::str("a")); names.append(py::str("b")); dict["names"] = names;
offsets.append(py::int_(1)); offsets.append(py::int_(10)); dict["offsets"] = offsets;
formats.append(py::dtype("int32")); formats.append(py::dtype("float64")); dict["formats"] = formats;
dict["itemsize"] = py::int_(20);
list.append(py::dtype::from_args(dict));
list.append(py::dtype(names, formats, offsets, 20));
list.append(py::dtype(py::buffer_info((void *) 0, sizeof(unsigned int), "I", 1)));
list.append(py::dtype(py::buffer_info((void *) 0, 0, "T{i:a:f:b:}", 1)));
return list;
}
struct A {};
struct B {};
TEST_SUBMODULE(numpy_dtypes, m) {
try { py::module::import("numpy"); }
catch (...) { return; }
// typeinfo may be registered before the dtype descriptor for scalar casts to work...
py::class_<SimpleStruct>(m, "SimpleStruct");
PYBIND11_NUMPY_DTYPE(SimpleStruct, bool_, uint_, float_, ldbl_);
PYBIND11_NUMPY_DTYPE(SimpleStructReordered, bool_, uint_, float_, ldbl_);
PYBIND11_NUMPY_DTYPE(PackedStruct, bool_, uint_, float_, ldbl_);
PYBIND11_NUMPY_DTYPE(NestedStruct, a, b);
PYBIND11_NUMPY_DTYPE(PartialStruct, bool_, uint_, float_, ldbl_);
PYBIND11_NUMPY_DTYPE(PartialNestedStruct, a);
PYBIND11_NUMPY_DTYPE(StringStruct, a, b);
PYBIND11_NUMPY_DTYPE(ArrayStruct, a, b, c, d);
PYBIND11_NUMPY_DTYPE(EnumStruct, e1, e2);
PYBIND11_NUMPY_DTYPE(ComplexStruct, cflt, cdbl);
// ... or after
py::class_<PackedStruct>(m, "PackedStruct");
PYBIND11_NUMPY_DTYPE_EX(StructWithUglyNames, __x__, "x", __y__, "y");
// If uncommented, this should produce a static_assert failure telling the user that the struct
// is not a POD type
// struct NotPOD { std::string v; NotPOD() : v("hi") {}; };
// PYBIND11_NUMPY_DTYPE(NotPOD, v);
// Check that dtypes can be registered programmatically, both from
// initializer lists of field descriptors and from other containers.
py::detail::npy_format_descriptor<A>::register_dtype(
{}
);
py::detail::npy_format_descriptor<B>::register_dtype(
std::vector<py::detail::field_descriptor>{}
);
// test_recarray, test_scalar_conversion
m.def("create_rec_simple", &create_recarray<SimpleStruct>);
m.def("create_rec_packed", &create_recarray<PackedStruct>);
m.def("create_rec_nested", [](size_t n) { // test_signature
py::array_t<NestedStruct, 0> arr = mkarray_via_buffer<NestedStruct>(n);
auto req = arr.request();
auto ptr = static_cast<NestedStruct*>(req.ptr);
for (size_t i = 0; i < n; i++) {
SET_TEST_VALS(ptr[i].a, i);
SET_TEST_VALS(ptr[i].b, i + 1);
}
return arr;
});
m.def("create_rec_partial", &create_recarray<PartialStruct>);
m.def("create_rec_partial_nested", [](size_t n) {
py::array_t<PartialNestedStruct, 0> arr = mkarray_via_buffer<PartialNestedStruct>(n);
auto req = arr.request();
auto ptr = static_cast<PartialNestedStruct*>(req.ptr);
for (size_t i = 0; i < n; i++) {
SET_TEST_VALS(ptr[i].a, i);
}
return arr;
});
m.def("print_rec_simple", &print_recarray<SimpleStruct>);
m.def("print_rec_packed", &print_recarray<PackedStruct>);
m.def("print_rec_nested", &print_recarray<NestedStruct>);
// test_format_descriptors
m.def("get_format_unbound", []() { return py::format_descriptor<UnboundStruct>::format(); });
m.def("print_format_descriptors", []() {
py::list l;
for (const auto &fmt : {
py::format_descriptor<SimpleStruct>::format(),
py::format_descriptor<PackedStruct>::format(),
py::format_descriptor<NestedStruct>::format(),
py::format_descriptor<PartialStruct>::format(),
py::format_descriptor<PartialNestedStruct>::format(),
py::format_descriptor<StringStruct>::format(),
py::format_descriptor<ArrayStruct>::format(),
py::format_descriptor<EnumStruct>::format(),
py::format_descriptor<ComplexStruct>::format()
}) {
l.append(py::cast(fmt));
}
return l;
});
// test_dtype
m.def("print_dtypes", []() {
py::list l;
for (const py::handle &d : {
py::dtype::of<SimpleStruct>(),
py::dtype::of<PackedStruct>(),
py::dtype::of<NestedStruct>(),
py::dtype::of<PartialStruct>(),
py::dtype::of<PartialNestedStruct>(),
py::dtype::of<StringStruct>(),
py::dtype::of<ArrayStruct>(),
py::dtype::of<EnumStruct>(),
py::dtype::of<StructWithUglyNames>(),
py::dtype::of<ComplexStruct>()
})
l.append(py::str(d));
return l;
});
m.def("test_dtype_ctors", &test_dtype_ctors);
m.def("test_dtype_methods", []() {
py::list list;
auto dt1 = py::dtype::of<int32_t>();
auto dt2 = py::dtype::of<SimpleStruct>();
list.append(dt1); list.append(dt2);
list.append(py::bool_(dt1.has_fields())); list.append(py::bool_(dt2.has_fields()));
list.append(py::int_(dt1.itemsize())); list.append(py::int_(dt2.itemsize()));
return list;
});
struct TrailingPaddingStruct {
int32_t a;
char b;
};
PYBIND11_NUMPY_DTYPE(TrailingPaddingStruct, a, b);
m.def("trailing_padding_dtype", []() { return py::dtype::of<TrailingPaddingStruct>(); });
// test_string_array
m.def("create_string_array", [](bool non_empty) {
py::array_t<StringStruct, 0> arr = mkarray_via_buffer<StringStruct>(non_empty ? 4 : 0);
if (non_empty) {
auto req = arr.request();
auto ptr = static_cast<StringStruct*>(req.ptr);
for (ssize_t i = 0; i < req.size * req.itemsize; i++)
static_cast<char*>(req.ptr)[i] = 0;
ptr[1].a[0] = 'a'; ptr[1].b[0] = 'a';
ptr[2].a[0] = 'a'; ptr[2].b[0] = 'a';
ptr[3].a[0] = 'a'; ptr[3].b[0] = 'a';
ptr[2].a[1] = 'b'; ptr[2].b[1] = 'b';
ptr[3].a[1] = 'b'; ptr[3].b[1] = 'b';
ptr[3].a[2] = 'c'; ptr[3].b[2] = 'c';
}
return arr;
});
m.def("print_string_array", &print_recarray<StringStruct>);
// test_array_array
m.def("create_array_array", [](size_t n) {
py::array_t<ArrayStruct, 0> arr = mkarray_via_buffer<ArrayStruct>(n);
auto ptr = (ArrayStruct *) arr.mutable_data();
for (size_t i = 0; i < n; i++) {
for (size_t j = 0; j < 3; j++)
for (size_t k = 0; k < 4; k++)
ptr[i].a[j][k] = char('A' + (i * 100 + j * 10 + k) % 26);
for (size_t j = 0; j < 2; j++)
ptr[i].b[j] = int32_t(i * 1000 + j);
for (size_t j = 0; j < 3; j++)
ptr[i].c[j] = uint8_t(i * 10 + j);
for (size_t j = 0; j < 4; j++)
for (size_t k = 0; k < 2; k++)
ptr[i].d[j][k] = float(i) * 100.0f + float(j) * 10.0f + float(k);
}
return arr;
});
m.def("print_array_array", &print_recarray<ArrayStruct>);
// test_enum_array
m.def("create_enum_array", [](size_t n) {
py::array_t<EnumStruct, 0> arr = mkarray_via_buffer<EnumStruct>(n);
auto ptr = (EnumStruct *) arr.mutable_data();
for (size_t i = 0; i < n; i++) {
ptr[i].e1 = static_cast<E1>(-1 + ((int) i % 2) * 2);
ptr[i].e2 = static_cast<E2>(1 + (i % 2));
}
return arr;
});
m.def("print_enum_array", &print_recarray<EnumStruct>);
// test_complex_array
m.def("create_complex_array", [](size_t n) {
py::array_t<ComplexStruct, 0> arr = mkarray_via_buffer<ComplexStruct>(n);
auto ptr = (ComplexStruct *) arr.mutable_data();
for (size_t i = 0; i < n; i++) {
ptr[i].cflt.real(float(i));
ptr[i].cflt.imag(float(i) + 0.25f);
ptr[i].cdbl.real(double(i) + 0.5);
ptr[i].cdbl.imag(double(i) + 0.75);
}
return arr;
});
m.def("print_complex_array", &print_recarray<ComplexStruct>);
// test_array_constructors
m.def("test_array_ctors", &test_array_ctors);
// test_compare_buffer_info
struct CompareStruct {
bool x;
uint32_t y;
float z;
};
PYBIND11_NUMPY_DTYPE(CompareStruct, x, y, z);
m.def("compare_buffer_info", []() {
py::list list;
list.append(py::bool_(py::detail::compare_buffer_info<float>::compare(py::buffer_info(nullptr, sizeof(float), "f", 1))));
list.append(py::bool_(py::detail::compare_buffer_info<unsigned>::compare(py::buffer_info(nullptr, sizeof(int), "I", 1))));
list.append(py::bool_(py::detail::compare_buffer_info<long>::compare(py::buffer_info(nullptr, sizeof(long), "l", 1))));
list.append(py::bool_(py::detail::compare_buffer_info<long>::compare(py::buffer_info(nullptr, sizeof(long), sizeof(long) == sizeof(int) ? "i" : "q", 1))));
list.append(py::bool_(py::detail::compare_buffer_info<CompareStruct>::compare(py::buffer_info(nullptr, sizeof(CompareStruct), "T{?:x:3xI:y:f:z:}", 1))));
return list;
});
m.def("buffer_to_dtype", [](py::buffer& buf) { return py::dtype(buf.request()); });
// test_scalar_conversion
m.def("f_simple", [](SimpleStruct s) { return s.uint_ * 10; });
m.def("f_packed", [](PackedStruct s) { return s.uint_ * 10; });
m.def("f_nested", [](NestedStruct s) { return s.a.uint_ * 10; });
// test_register_dtype
m.def("register_dtype", []() { PYBIND11_NUMPY_DTYPE(SimpleStruct, bool_, uint_, float_, ldbl_); });
// test_str_leak
m.def("dtype_wrapper", [](py::object d) { return py::dtype::from_args(std::move(d)); });
}