mirror of
https://github.com/pybind/pybind11.git
synced 2024-11-22 21:25:13 +00:00
Strip padding fields in dtypes, update the tests
This commit is contained in:
parent
13022f1b8c
commit
8fa09cb871
@ -44,6 +44,19 @@ std::ostream& operator<<(std::ostream& os, const NestedStruct& v) {
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return os << "n:a=" << v.a << ";b=" << v.b;
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}
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struct PartialStruct {
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bool x;
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uint32_t y;
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float z;
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long dummy2;
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};
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struct PartialNestedStruct {
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long dummy1;
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PartialStruct a;
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long dummy2;
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};
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struct UnboundStruct { };
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template <typename T>
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@ -54,7 +67,7 @@ py::array mkarray_via_buffer(size_t n) {
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}
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template <typename S>
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py::array_t<S> create_recarray(size_t n) {
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py::array_t<S, 0> create_recarray(size_t n) {
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auto arr = mkarray_via_buffer<S>(n);
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auto ptr = static_cast<S*>(arr.request().ptr);
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for (size_t i = 0; i < n; i++) {
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@ -67,7 +80,7 @@ std::string get_format_unbound() {
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return py::format_descriptor<UnboundStruct>::format();
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}
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py::array_t<NestedStruct> create_nested(size_t n) {
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py::array_t<NestedStruct, 0> create_nested(size_t n) {
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auto arr = mkarray_via_buffer<NestedStruct>(n);
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auto ptr = static_cast<NestedStruct*>(arr.request().ptr);
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for (size_t i = 0; i < n; i++) {
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@ -77,8 +90,17 @@ py::array_t<NestedStruct> create_nested(size_t n) {
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return arr;
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}
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py::array_t<PartialNestedStruct, 0> create_partial_nested(size_t n) {
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auto arr = mkarray_via_buffer<PartialNestedStruct>(n);
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auto ptr = static_cast<PartialNestedStruct*>(arr.request().ptr);
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for (size_t i = 0; i < n; i++) {
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ptr[i].a.x = i % 2; ptr[i].a.y = (uint32_t) i; ptr[i].a.z = (float) i * 1.5f;
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}
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return arr;
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}
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template <typename S>
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void print_recarray(py::array_t<S> arr) {
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void print_recarray(py::array_t<S, 0> arr) {
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auto buf = arr.request();
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auto ptr = static_cast<S*>(buf.ptr);
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for (size_t i = 0; i < buf.size; i++)
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@ -89,6 +111,8 @@ void print_format_descriptors() {
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std::cout << py::format_descriptor<SimpleStruct>::format() << std::endl;
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std::cout << py::format_descriptor<PackedStruct>::format() << std::endl;
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std::cout << py::format_descriptor<NestedStruct>::format() << std::endl;
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std::cout << py::format_descriptor<PartialStruct>::format() << std::endl;
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std::cout << py::format_descriptor<PartialNestedStruct>::format() << std::endl;
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}
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void print_dtypes() {
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@ -98,16 +122,22 @@ void print_dtypes() {
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std::cout << to_str(py::dtype_of<SimpleStruct>()) << std::endl;
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std::cout << to_str(py::dtype_of<PackedStruct>()) << std::endl;
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std::cout << to_str(py::dtype_of<NestedStruct>()) << std::endl;
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std::cout << to_str(py::dtype_of<PartialStruct>()) << std::endl;
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std::cout << to_str(py::dtype_of<PartialNestedStruct>()) << std::endl;
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}
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void init_ex20(py::module &m) {
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PYBIND11_NUMPY_DTYPE(SimpleStruct, x, y, z);
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PYBIND11_NUMPY_DTYPE(PackedStruct, x, y, z);
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PYBIND11_NUMPY_DTYPE(NestedStruct, a, b);
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PYBIND11_NUMPY_DTYPE(PartialStruct, x, y, z);
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PYBIND11_NUMPY_DTYPE(PartialNestedStruct, a);
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m.def("create_rec_simple", &create_recarray<SimpleStruct>);
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m.def("create_rec_packed", &create_recarray<PackedStruct>);
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m.def("create_rec_nested", &create_nested);
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m.def("create_rec_partial", &create_recarray<PartialStruct>);
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m.def("create_rec_partial_nested", &create_partial_nested);
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m.def("print_format_descriptors", &print_format_descriptors);
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m.def("print_rec_simple", &print_recarray<SimpleStruct>);
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m.def("print_rec_packed", &print_recarray<PackedStruct>);
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@ -5,7 +5,8 @@ import unittest
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import numpy as np
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from example import (
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create_rec_simple, create_rec_packed, create_rec_nested, print_format_descriptors,
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print_rec_simple, print_rec_packed, print_rec_nested, print_dtypes, get_format_unbound
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print_rec_simple, print_rec_packed, print_rec_nested, print_dtypes, get_format_unbound,
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create_rec_partial, create_rec_partial_nested
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)
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@ -23,6 +24,8 @@ simple_dtype = np.dtype({'names': ['x', 'y', 'z'],
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'offsets': [0, 4, 8]})
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packed_dtype = np.dtype([('x', '?'), ('y', 'u4'), ('z', 'f4')])
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elements = [(False, 0, 0.0), (True, 1, 1.5), (False, 2, 3.0)]
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for func, dtype in [(create_rec_simple, simple_dtype), (create_rec_packed, packed_dtype)]:
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arr = func(0)
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assert arr.dtype == dtype
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@ -31,14 +34,30 @@ for func, dtype in [(create_rec_simple, simple_dtype), (create_rec_packed, packe
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arr = func(3)
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assert arr.dtype == dtype
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check_eq(arr, [(False, 0, 0.0), (True, 1, 1.5), (False, 2, 3.0)], simple_dtype)
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check_eq(arr, [(False, 0, 0.0), (True, 1, 1.5), (False, 2, 3.0)], packed_dtype)
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check_eq(arr, elements, simple_dtype)
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check_eq(arr, elements, packed_dtype)
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if dtype == simple_dtype:
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print_rec_simple(arr)
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else:
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print_rec_packed(arr)
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arr = create_rec_partial(3)
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print(arr.dtype)
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partial_dtype = arr.dtype
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assert '' not in arr.dtype.fields
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assert partial_dtype.itemsize > simple_dtype.itemsize
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check_eq(arr, elements, simple_dtype)
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check_eq(arr, elements, packed_dtype)
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arr = create_rec_partial_nested(3)
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print(arr.dtype)
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assert '' not in arr.dtype.fields
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assert '' not in arr.dtype.fields['a'][0].fields
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assert arr.dtype.itemsize > partial_dtype.itemsize
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np.testing.assert_equal(arr['a'], create_rec_partial(3))
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nested_dtype = np.dtype([('a', simple_dtype), ('b', packed_dtype)])
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arr = create_rec_nested(0)
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@ -1,15 +1,21 @@
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T{?:x:xxxI:y:f:z:}
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T{?:x:=I:y:f:z:}
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T{T{?:x:xxxI:y:f:z:}:a:T{?:x:=I:y:f:z:}:b:}
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T{=?:x:3x=I:y:=f:z:}
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T{=?:x:=I:y:=f:z:}
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T{=T{=?:x:3x=I:y:=f:z:}:a:=T{=?:x:=I:y:=f:z:}:b:}
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T{=?:x:3x=I:y:=f:z:12x}
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T{8x=T{=?:x:3x=I:y:=f:z:12x}:a:8x}
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{'names':['x','y','z'], 'formats':['?','<u4','<f4'], 'offsets':[0,4,8], 'itemsize':12}
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[('x', '?'), ('y', '<u4'), ('z', '<f4')]
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[('a', {'names':['x','y','z'], 'formats':['?','<u4','<f4'], 'offsets':[0,4,8], 'itemsize':12}), ('b', [('x', '?'), ('y', '<u4'), ('z', '<f4')])]
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{'names':['x','y','z'], 'formats':['?','<u4','<f4'], 'offsets':[0,4,8], 'itemsize':24}
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{'names':['a'], 'formats':[{'names':['x','y','z'], 'formats':['?','<u4','<f4'], 'offsets':[0,4,8], 'itemsize':24}], 'offsets':[8], 'itemsize':40}
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s:0,0,0
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s:1,1,1.5
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s:0,2,3
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p:0,0,0
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p:1,1,1.5
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p:0,2,3
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{'names':['x','y','z'], 'formats':['?','<u4','<f4'], 'offsets':[0,4,8], 'itemsize':24}
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{'names':['a'], 'formats':[{'names':['x','y','z'], 'formats':['?','<u4','<f4'], 'offsets':[0,4,8], 'itemsize':24}], 'offsets':[8], 'itemsize':40}
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n:a=s:0,0,0;b=p:1,1,1.5
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n:a=s:1,1,1.5;b=p:0,2,3
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n:a=s:0,2,3;b=p:1,3,4.5
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@ -15,6 +15,7 @@
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#include <algorithm>
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#include <cstdlib>
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#include <cstring>
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#include <sstream>
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#include <initializer_list>
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#if defined(_MSC_VER)
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@ -26,6 +27,8 @@ NAMESPACE_BEGIN(pybind11)
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namespace detail {
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template <typename type, typename SFINAE = void> struct npy_format_descriptor { };
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object fix_dtype(object);
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template <typename T>
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struct is_pod_struct {
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enum { value = std::is_pod<T>::value && // offsetof only works correctly for POD types
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@ -47,7 +50,9 @@ public:
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API_PyArray_FromAny = 69,
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API_PyArray_NewCopy = 85,
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API_PyArray_NewFromDescr = 94,
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API_PyArray_DescrNewFromType = 9,
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API_PyArray_DescrConverter = 174,
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API_PyArray_EquivTypes = 182,
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API_PyArray_GetArrayParamsFromObject = 278,
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NPY_C_CONTIGUOUS_ = 0x0001,
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@ -61,7 +66,9 @@ public:
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NPY_LONG_, NPY_ULONG_,
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NPY_LONGLONG_, NPY_ULONGLONG_,
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NPY_FLOAT_, NPY_DOUBLE_, NPY_LONGDOUBLE_,
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NPY_CFLOAT_, NPY_CDOUBLE_, NPY_CLONGDOUBLE_
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NPY_CFLOAT_, NPY_CDOUBLE_, NPY_CLONGDOUBLE_,
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NPY_OBJECT_ = 17,
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NPY_STRING_, NPY_UNICODE_, NPY_VOID_
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};
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static API lookup() {
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@ -79,7 +86,9 @@ public:
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DECL_NPY_API(PyArray_FromAny);
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DECL_NPY_API(PyArray_NewCopy);
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DECL_NPY_API(PyArray_NewFromDescr);
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DECL_NPY_API(PyArray_DescrNewFromType);
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DECL_NPY_API(PyArray_DescrConverter);
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DECL_NPY_API(PyArray_EquivTypes);
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DECL_NPY_API(PyArray_GetArrayParamsFromObject);
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#undef DECL_NPY_API
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return api;
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@ -91,10 +100,12 @@ public:
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PyObject *(*PyArray_NewFromDescr_)
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(PyTypeObject *, PyObject *, int, Py_intptr_t *,
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Py_intptr_t *, void *, int, PyObject *);
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PyObject *(*PyArray_DescrNewFromType_)(int);
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PyObject *(*PyArray_NewCopy_)(PyObject *, int);
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PyTypeObject *PyArray_Type_;
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PyObject *(*PyArray_FromAny_) (PyObject *, PyObject *, int, int, int, PyObject *);
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int (*PyArray_DescrConverter_) (PyObject *, PyObject **);
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bool (*PyArray_EquivTypes_) (PyObject *, PyObject *);
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int (*PyArray_GetArrayParamsFromObject_)(PyObject *, PyObject *, char, PyObject **, int *,
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Py_ssize_t *, PyObject **, PyObject *);
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};
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@ -113,52 +124,83 @@ public:
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Py_intptr_t shape = (Py_intptr_t) size;
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object tmp = object(api.PyArray_NewFromDescr_(
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api.PyArray_Type_, descr, 1, &shape, nullptr, (void *) ptr, 0, nullptr), false);
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if (ptr && tmp)
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tmp = object(api.PyArray_NewCopy_(tmp.ptr(), -1 /* any order */), false);
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if (!tmp)
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pybind11_fail("NumPy: unable to create array!");
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if (ptr)
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tmp = object(api.PyArray_NewCopy_(tmp.ptr(), -1 /* any order */), false);
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m_ptr = tmp.release().ptr();
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}
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array(const buffer_info &info) {
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PyObject *arr = nullptr, *descr = nullptr;
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int ndim = 0;
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Py_ssize_t dims[32];
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API& api = lookup_api();
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auto& api = lookup_api();
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// Allocate non-zeroed memory if it hasn't been provided by the caller.
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// Normally, we could leave this null for NumPy to allocate memory for us, but
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// since we need a memoryview, the data pointer has to be non-null. NumPy uses
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// malloc if NPY_NEEDS_INIT is not set (in which case it uses calloc); however,
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// we don't have a desriptor yet (only a buffer format string), so we can't
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// access the flags. As long as we're not dealing with object dtypes/fields
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// though, the memory doesn't have to be zeroed so we use malloc.
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auto buf_info = info;
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if (!buf_info.ptr)
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// always allocate at least 1 element, same way as NumPy does it
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buf_info.ptr = std::malloc(std::max(info.size, (size_t) 1) * info.itemsize);
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if (!buf_info.ptr)
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pybind11_fail("NumPy: failed to allocate memory for buffer");
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// _dtype_from_pep3118 returns dtypes with padding fields in, however the array
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// constructor seems to then consume them, so we don't need to strip them ourselves
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auto numpy_internal = module::import("numpy.core._internal");
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auto dtype_from_fmt = (object) numpy_internal.attr("_dtype_from_pep3118");
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auto dtype = dtype_from_fmt(pybind11::str(info.format));
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auto dtype2 = strip_padding_fields(dtype);
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// PyArray_GetArrayParamsFromObject seems to be the only low-level API function
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// that will accept arbitrary buffers (including structured types)
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auto view = memoryview(buf_info);
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auto res = api.PyArray_GetArrayParamsFromObject_(view.ptr(), nullptr, 1, &descr,
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&ndim, dims, &arr, nullptr);
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if (res < 0 || !arr || descr)
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// We expect arr to have a pointer to a newly created array, in which case all
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// other parameters like descr would be set to null, according to the API.
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pybind11_fail("NumPy: unable to convert buffer to an array");
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m_ptr = arr;
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object tmp(api.PyArray_NewFromDescr_(
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api.PyArray_Type_, dtype2.release().ptr(), (int) info.ndim, (Py_intptr_t *) &info.shape[0],
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(Py_intptr_t *) &info.strides[0], info.ptr, 0, nullptr), false);
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if (!tmp)
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pybind11_fail("NumPy: unable to create array!");
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if (info.ptr)
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tmp = object(api.PyArray_NewCopy_(tmp.ptr(), -1 /* any order */), false);
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m_ptr = tmp.release().ptr();
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auto d = (object) this->attr("dtype");
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}
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protected:
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// protected:
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static API &lookup_api() {
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static API api = API::lookup();
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return api;
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}
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template <typename T, typename SFINAE> friend struct detail::npy_format_descriptor;
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static object strip_padding_fields(object dtype) {
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// Recursively strip all void fields with empty names that are generated for
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// padding fields (as of NumPy v1.11).
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auto fields = dtype.attr("fields").cast<object>();
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if (fields.ptr() == Py_None)
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return dtype;
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struct field_descr { pybind11::str name; object format; int_ offset; };
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std::vector<field_descr> field_descriptors;
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auto items = fields.attr("items").cast<object>();
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for (auto field : items()) {
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auto spec = object(field, true).cast<tuple>();
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auto name = spec[0].cast<pybind11::str>();
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auto format = spec[1].cast<tuple>()[0].cast<object>();
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auto offset = spec[1].cast<tuple>()[1].cast<int_>();
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if (!len(name) && (std::string) dtype.attr("kind").cast<pybind11::str>() == "V")
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continue;
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field_descriptors.push_back({name, strip_padding_fields(format), offset});
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}
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std::sort(field_descriptors.begin(), field_descriptors.end(),
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[](const field_descr& a, const field_descr& b) {
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return (int) a.offset < (int) b.offset;
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});
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list names, formats, offsets;
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for (auto& descr : field_descriptors) {
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names.append(descr.name);
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formats.append(descr.format);
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offsets.append(descr.offset);
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}
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auto args = dict();
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args["names"] = names; args["formats"] = formats; args["offsets"] = offsets;
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args["itemsize"] = dtype.attr("itemsize").cast<int_>();
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PyObject *descr = nullptr;
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if (!lookup_api().PyArray_DescrConverter_(args.release().ptr(), &descr) || !descr)
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pybind11_fail("NumPy: failed to create structured dtype");
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return object(descr, false);
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}
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};
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template <typename T, int ExtraFlags = array::forcecast> class array_t : public array {
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@ -233,9 +275,12 @@ DECL_FMT(std::complex<double>, NPY_CDOUBLE_, "complex128");
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struct field_descriptor {
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const char *name;
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size_t offset;
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size_t size;
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const char *format;
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object descr;
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};
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template <typename T>
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struct npy_format_descriptor<T, typename std::enable_if<is_pod_struct<T>::value>::type> {
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static PYBIND11_DESCR name() { return _("user-defined"); }
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@ -253,7 +298,7 @@ struct npy_format_descriptor<T, typename std::enable_if<is_pod_struct<T>::value>
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}
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static void register_dtype(std::initializer_list<field_descriptor> fields) {
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array::API& api = array::lookup_api();
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auto& api = array::lookup_api();
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auto args = dict();
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list names { }, offsets { }, formats { };
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for (auto field : fields) {
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@ -263,26 +308,47 @@ struct npy_format_descriptor<T, typename std::enable_if<is_pod_struct<T>::value>
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offsets.append(int_(field.offset));
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formats.append(field.descr);
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}
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args["names"] = names;
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args["offsets"] = offsets;
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args["formats"] = formats;
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args["names"] = names; args["offsets"] = offsets; args["formats"] = formats;
|
||||
args["itemsize"] = int_(sizeof(T));
|
||||
// This is essentially the same as calling np.dtype() constructor in Python and passing
|
||||
// it a dict of the form {'names': ..., 'formats': ..., 'offsets': ...}.
|
||||
if (!api.PyArray_DescrConverter_(args.release().ptr(), &dtype_()) || !dtype_())
|
||||
pybind11_fail("NumPy: failed to create structured dtype");
|
||||
// Let NumPy figure the buffer format string for us: memoryview(np.empty(0, dtype)).format
|
||||
auto np = module::import("numpy");
|
||||
auto empty = (object) np.attr("empty");
|
||||
if (auto arr = (object) empty(int_(0), dtype())) {
|
||||
if (auto view = PyMemoryView_FromObject(arr.ptr())) {
|
||||
if (auto info = PyMemoryView_GET_BUFFER(view)) {
|
||||
std::strncpy(format_(), info->format, 4096);
|
||||
return;
|
||||
|
||||
// There is an existing bug in NumPy (as of v1.11): trailing bytes are
|
||||
// not encoded explicitly into the format string. This will supposedly
|
||||
// get fixed in v1.12; for further details, see these:
|
||||
// - https://github.com/numpy/numpy/issues/7797
|
||||
// - https://github.com/numpy/numpy/pull/7798
|
||||
// Because of this, we won't use numpy's logic to generate buffer format
|
||||
// strings and will just do it ourselves.
|
||||
std::vector<field_descriptor> ordered_fields(fields);
|
||||
std::sort(ordered_fields.begin(), ordered_fields.end(),
|
||||
[](const field_descriptor& a, const field_descriptor &b) {
|
||||
return a.offset < b.offset;
|
||||
});
|
||||
size_t offset = 0;
|
||||
std::ostringstream oss;
|
||||
oss << "T{";
|
||||
for (auto& field : ordered_fields) {
|
||||
if (field.offset > offset)
|
||||
oss << (field.offset - offset) << 'x';
|
||||
// note that '=' is required to cover the case of unaligned fields
|
||||
oss << '=' << field.format << ':' << field.name << ':';
|
||||
offset = field.offset + field.size;
|
||||
}
|
||||
}
|
||||
}
|
||||
pybind11_fail("NumPy: failed to extract buffer format");
|
||||
if (sizeof(T) > offset)
|
||||
oss << (sizeof(T) - offset) << 'x';
|
||||
oss << '}';
|
||||
std::strncpy(format_(), oss.str().c_str(), 4096);
|
||||
|
||||
// Sanity check: verify that NumPy properly parses our buffer format string
|
||||
auto arr = array(buffer_info(nullptr, sizeof(T), format(), 1, { 0 }, { sizeof(T) }));
|
||||
auto dtype = (object) arr.attr("dtype");
|
||||
auto fixed_dtype = dtype;
|
||||
// auto fixed_dtype = array::strip_padding_fields(object(dtype_(), true));
|
||||
// if (!api.PyArray_EquivTypes_(dtype_(), fixed_dtype.ptr()))
|
||||
// pybind11_fail("NumPy: invalid buffer descriptor!");
|
||||
}
|
||||
|
||||
private:
|
||||
@ -293,7 +359,8 @@ private:
|
||||
// Extract name, offset and format descriptor for a struct field
|
||||
#define PYBIND11_FIELD_DESCRIPTOR(Type, Field) \
|
||||
::pybind11::detail::field_descriptor { \
|
||||
#Field, offsetof(Type, Field), \
|
||||
#Field, offsetof(Type, Field), sizeof(decltype(static_cast<Type*>(0)->Field)), \
|
||||
::pybind11::format_descriptor<decltype(static_cast<Type*>(0)->Field)>::format(), \
|
||||
::pybind11::detail::npy_format_descriptor<decltype(static_cast<Type*>(0)->Field)>::dtype() \
|
||||
}
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user