fix build

This commit is contained in:
Thomas Kunze 2024-09-14 19:43:40 +02:00
parent e15da8451b
commit a30bbd0f0a
21 changed files with 852 additions and 0 deletions

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name: WASM
on:
workflow_dispatch:
pull_request:
branches:
- master
- stable
- v*
concurrency:
group: ${{ github.workflow }}-${{ github.ref }}
cancel-in-progress: true
jobs:
build-wasm-emscripten:
name: Pyodide wheel
runs-on: ubuntu-22.04
steps:
- uses: actions/checkout@v4
with:
submodules: true
fetch-depth: 0
- uses: pypa/cibuildwheel@v2.20
env:
PYODIDE_BUILD_EXPORTS: whole_archive
with:
package-dir: tests
only: cp312-pyodide_wasm32

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Functional
##########
The following features must be enabled by including :file:`pybind11/functional.h`.
Callbacks and passing anonymous functions
=========================================
The C++11 standard brought lambda functions and the generic polymorphic
function wrapper ``std::function<>`` to the C++ programming language, which
enable powerful new ways of working with functions. Lambda functions come in
two flavors: stateless lambda function resemble classic function pointers that
link to an anonymous piece of code, while stateful lambda functions
additionally depend on captured variables that are stored in an anonymous
*lambda closure object*.
Here is a simple example of a C++ function that takes an arbitrary function
(stateful or stateless) with signature ``int -> int`` as an argument and runs
it with the value 10.
.. code-block:: cpp
int func_arg(const std::function<int(int)> &f) {
return f(10);
}
The example below is more involved: it takes a function of signature ``int -> int``
and returns another function of the same kind. The return value is a stateful
lambda function, which stores the value ``f`` in the capture object and adds 1 to
its return value upon execution.
.. code-block:: cpp
std::function<int(int)> func_ret(const std::function<int(int)> &f) {
return [f](int i) {
return f(i) + 1;
};
}
This example demonstrates using python named parameters in C++ callbacks which
requires using ``py::cpp_function`` as a wrapper. Usage is similar to defining
methods of classes:
.. code-block:: cpp
py::cpp_function func_cpp() {
return py::cpp_function([](int i) { return i+1; },
py::arg("number"));
}
After including the extra header file :file:`pybind11/functional.h`, it is almost
trivial to generate binding code for all of these functions.
.. code-block:: cpp
#include <pybind11/functional.h>
PYBIND11_MODULE(example, m) {
m.def("func_arg", &func_arg);
m.def("func_ret", &func_ret);
m.def("func_cpp", &func_cpp);
}
The following interactive session shows how to call them from Python.
.. code-block:: pycon
$ python
>>> import example
>>> def square(i):
... return i * i
...
>>> example.func_arg(square)
100L
>>> square_plus_1 = example.func_ret(square)
>>> square_plus_1(4)
17L
>>> plus_1 = func_cpp()
>>> plus_1(number=43)
44L
.. warning::
Keep in mind that passing a function from C++ to Python (or vice versa)
will instantiate a piece of wrapper code that translates function
invocations between the two languages. Naturally, this translation
increases the computational cost of each function call somewhat. A
problematic situation can arise when a function is copied back and forth
between Python and C++ many times in a row, in which case the underlying
wrappers will accumulate correspondingly. The resulting long sequence of
C++ -> Python -> C++ -> ... roundtrips can significantly decrease
performance.
There is one exception: pybind11 detects case where a stateless function
(i.e. a function pointer or a lambda function without captured variables)
is passed as an argument to another C++ function exposed in Python. In this
case, there is no overhead. Pybind11 will extract the underlying C++
function pointer from the wrapped function to sidestep a potential C++ ->
Python -> C++ roundtrip. This is demonstrated in :file:`tests/test_callbacks.cpp`.
.. note::
This functionality is very useful when generating bindings for callbacks in
C++ libraries (e.g. GUI libraries, asynchronous networking libraries, etc.).
The file :file:`tests/test_callbacks.cpp` contains a complete example
that demonstrates how to work with callbacks and anonymous functions in
more detail.

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Python C++ interface
####################
pybind11 exposes Python types and functions using thin C++ wrappers, which
makes it possible to conveniently call Python code from C++ without resorting
to Python's C API.
.. toctree::
:maxdepth: 2
object
numpy
utilities

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#include "detail/common.h"
#warning "Including 'common.h' is deprecated. It will be removed in v3.0. Use 'pybind11.h'."

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// Copyright (c) 2024 The pybind Community.
#pragma once
#include <pybind11/pytypes.h>
#include "common.h"
#include "internals.h"
#include <typeinfo>
PYBIND11_NAMESPACE_BEGIN(PYBIND11_NAMESPACE)
PYBIND11_NAMESPACE_BEGIN(detail)
// Forward declaration needed here: Refactoring opportunity.
extern "C" inline PyObject *pybind11_object_new(PyTypeObject *type, PyObject *, PyObject *);
inline bool type_is_managed_by_our_internals(PyTypeObject *type_obj) {
#if defined(PYPY_VERSION)
auto &internals = get_internals();
return bool(internals.registered_types_py.find(type_obj)
!= internals.registered_types_py.end());
#else
return bool(type_obj->tp_new == pybind11_object_new);
#endif
}
inline bool is_instance_method_of_type(PyTypeObject *type_obj, PyObject *attr_name) {
PyObject *descr = _PyType_Lookup(type_obj, attr_name);
return bool((descr != nullptr) && PyInstanceMethod_Check(descr));
}
inline object try_get_cpp_conduit_method(PyObject *obj) {
if (PyType_Check(obj)) {
return object();
}
PyTypeObject *type_obj = Py_TYPE(obj);
str attr_name("_pybind11_conduit_v1_");
bool assumed_to_be_callable = false;
if (type_is_managed_by_our_internals(type_obj)) {
if (!is_instance_method_of_type(type_obj, attr_name.ptr())) {
return object();
}
assumed_to_be_callable = true;
}
PyObject *method = PyObject_GetAttr(obj, attr_name.ptr());
if (method == nullptr) {
PyErr_Clear();
return object();
}
if (!assumed_to_be_callable && PyCallable_Check(method) == 0) {
Py_DECREF(method);
return object();
}
return reinterpret_steal<object>(method);
}
inline void *try_raw_pointer_ephemeral_from_cpp_conduit(handle src,
const std::type_info *cpp_type_info) {
object method = try_get_cpp_conduit_method(src.ptr());
if (method) {
capsule cpp_type_info_capsule(const_cast<void *>(static_cast<const void *>(cpp_type_info)),
typeid(std::type_info).name());
object cpp_conduit = method(bytes(PYBIND11_PLATFORM_ABI_ID),
cpp_type_info_capsule,
bytes("raw_pointer_ephemeral"));
if (isinstance<capsule>(cpp_conduit)) {
return reinterpret_borrow<capsule>(cpp_conduit).get_pointer();
}
}
return nullptr;
}
#define PYBIND11_HAS_CPP_CONDUIT 1
PYBIND11_NAMESPACE_END(detail)
PYBIND11_NAMESPACE_END(PYBIND11_NAMESPACE)

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/*
pybind11/detail/exception_translation.h: means to translate C++ exceptions to Python exceptions
Copyright (c) 2024 The Pybind Development Team.
All rights reserved. Use of this source code is governed by a
BSD-style license that can be found in the LICENSE file.
*/
#pragma once
#include "common.h"
#include "internals.h"
PYBIND11_NAMESPACE_BEGIN(PYBIND11_NAMESPACE)
PYBIND11_NAMESPACE_BEGIN(detail)
// Apply all the extensions translators from a list
// Return true if one of the translators completed without raising an exception
// itself. Return of false indicates that if there are other translators
// available, they should be tried.
inline bool apply_exception_translators(std::forward_list<ExceptionTranslator> &translators) {
auto last_exception = std::current_exception();
for (auto &translator : translators) {
try {
translator(last_exception);
return true;
} catch (...) {
last_exception = std::current_exception();
}
}
return false;
}
inline void try_translate_exceptions() {
/* When an exception is caught, give each registered exception
translator a chance to translate it to a Python exception. First
all module-local translators will be tried in reverse order of
registration. If none of the module-locale translators handle
the exception (or there are no module-locale translators) then
the global translators will be tried, also in reverse order of
registration.
A translator may choose to do one of the following:
- catch the exception and call py::set_error()
to set a standard (or custom) Python exception, or
- do nothing and let the exception fall through to the next translator, or
- delegate translation to the next translator by throwing a new type of exception.
*/
bool handled = with_internals([&](internals &internals) {
auto &local_exception_translators = get_local_internals().registered_exception_translators;
if (detail::apply_exception_translators(local_exception_translators)) {
return true;
}
auto &exception_translators = internals.registered_exception_translators;
if (detail::apply_exception_translators(exception_translators)) {
return true;
}
return false;
});
if (!handled) {
set_error(PyExc_SystemError, "Exception escaped from default exception translator!");
}
}
PYBIND11_NAMESPACE_END(detail)
PYBIND11_NAMESPACE_END(PYBIND11_NAMESPACE)

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// Copyright (c) 2016-2024 The Pybind Development Team.
// All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#pragma once
#include "common.h"
#include <cstddef>
#include <typeinfo>
PYBIND11_NAMESPACE_BEGIN(PYBIND11_NAMESPACE)
PYBIND11_NAMESPACE_BEGIN(detail)
struct value_and_holder {
instance *inst = nullptr;
size_t index = 0u;
const detail::type_info *type = nullptr;
void **vh = nullptr;
// Main constructor for a found value/holder:
value_and_holder(instance *i, const detail::type_info *type, size_t vpos, size_t index)
: inst{i}, index{index}, type{type},
vh{inst->simple_layout ? inst->simple_value_holder
: &inst->nonsimple.values_and_holders[vpos]} {}
// Default constructor (used to signal a value-and-holder not found by get_value_and_holder())
value_and_holder() = default;
// Used for past-the-end iterator
explicit value_and_holder(size_t index) : index{index} {}
template <typename V = void>
V *&value_ptr() const {
return reinterpret_cast<V *&>(vh[0]);
}
// True if this `value_and_holder` has a non-null value pointer
explicit operator bool() const { return value_ptr() != nullptr; }
template <typename H>
H &holder() const {
return reinterpret_cast<H &>(vh[1]);
}
bool holder_constructed() const {
return inst->simple_layout
? inst->simple_holder_constructed
: (inst->nonsimple.status[index] & instance::status_holder_constructed) != 0u;
}
// NOLINTNEXTLINE(readability-make-member-function-const)
void set_holder_constructed(bool v = true) {
if (inst->simple_layout) {
inst->simple_holder_constructed = v;
} else if (v) {
inst->nonsimple.status[index] |= instance::status_holder_constructed;
} else {
inst->nonsimple.status[index] &= (std::uint8_t) ~instance::status_holder_constructed;
}
}
bool instance_registered() const {
return inst->simple_layout
? inst->simple_instance_registered
: ((inst->nonsimple.status[index] & instance::status_instance_registered) != 0);
}
// NOLINTNEXTLINE(readability-make-member-function-const)
void set_instance_registered(bool v = true) {
if (inst->simple_layout) {
inst->simple_instance_registered = v;
} else if (v) {
inst->nonsimple.status[index] |= instance::status_instance_registered;
} else {
inst->nonsimple.status[index] &= (std::uint8_t) ~instance::status_instance_registered;
}
}
};
PYBIND11_NAMESPACE_END(detail)
PYBIND11_NAMESPACE_END(PYBIND11_NAMESPACE)

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// Copyright (c) 2024 The pybind Community.
// THIS MUST STAY AT THE TOP!
#include <pybind11/pybind11.h> // EXCLUSIVELY for PYBIND11_PLATFORM_ABI_ID
// Potential future direction to maximize reusability:
// (e.g. for use from SWIG, Cython, PyCLIF, nanobind):
// #include <pybind11/compat/platform_abi_id.h>
// This would only depend on:
// 1. A C++ compiler, WITHOUT requiring -fexceptions.
// 2. Python.h
#include "test_cpp_conduit_traveler_types.h"
#include <Python.h>
#include <typeinfo>
namespace {
void *get_cpp_conduit_void_ptr(PyObject *py_obj, const std::type_info *cpp_type_info) {
PyObject *cpp_type_info_capsule
= PyCapsule_New(const_cast<void *>(static_cast<const void *>(cpp_type_info)),
typeid(std::type_info).name(),
nullptr);
if (cpp_type_info_capsule == nullptr) {
return nullptr;
}
PyObject *cpp_conduit = PyObject_CallMethod(py_obj,
"_pybind11_conduit_v1_",
"yOy",
PYBIND11_PLATFORM_ABI_ID,
cpp_type_info_capsule,
"raw_pointer_ephemeral");
Py_DECREF(cpp_type_info_capsule);
if (cpp_conduit == nullptr) {
return nullptr;
}
void *void_ptr = PyCapsule_GetPointer(cpp_conduit, cpp_type_info->name());
Py_DECREF(cpp_conduit);
if (PyErr_Occurred()) {
return nullptr;
}
return void_ptr;
}
template <typename T>
T *get_cpp_conduit_type_ptr(PyObject *py_obj) {
void *void_ptr = get_cpp_conduit_void_ptr(py_obj, &typeid(T));
if (void_ptr == nullptr) {
return nullptr;
}
return static_cast<T *>(void_ptr);
}
extern "C" PyObject *wrapGetLuggage(PyObject * /*self*/, PyObject *traveler) {
const auto *cpp_traveler
= get_cpp_conduit_type_ptr<pybind11_tests::test_cpp_conduit::Traveler>(traveler);
if (cpp_traveler == nullptr) {
return nullptr;
}
return PyUnicode_FromString(cpp_traveler->luggage.c_str());
}
extern "C" PyObject *wrapGetPoints(PyObject * /*self*/, PyObject *premium_traveler) {
const auto *cpp_premium_traveler
= get_cpp_conduit_type_ptr<pybind11_tests::test_cpp_conduit::PremiumTraveler>(
premium_traveler);
if (cpp_premium_traveler == nullptr) {
return nullptr;
}
return PyLong_FromLong(static_cast<long>(cpp_premium_traveler->points));
}
PyMethodDef ThisMethodDef[] = {{"GetLuggage", wrapGetLuggage, METH_O, nullptr},
{"GetPoints", wrapGetPoints, METH_O, nullptr},
{nullptr, nullptr, 0, nullptr}};
struct PyModuleDef ThisModuleDef = {
PyModuleDef_HEAD_INIT, // m_base
"exo_planet_c_api", // m_name
nullptr, // m_doc
-1, // m_size
ThisMethodDef, // m_methods
nullptr, // m_slots
nullptr, // m_traverse
nullptr, // m_clear
nullptr // m_free
};
} // namespace
#if defined(WIN32) || defined(_WIN32)
# define EXO_PLANET_C_API_EXPORT __declspec(dllexport)
#else
# define EXO_PLANET_C_API_EXPORT __attribute__((visibility("default")))
#endif
extern "C" EXO_PLANET_C_API_EXPORT PyObject *PyInit_exo_planet_c_api() {
PyObject *m = PyModule_Create(&ThisModuleDef);
if (m == nullptr) {
return nullptr;
}
return m;
}

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// Copyright (c) 2024 The pybind Community.
#if defined(PYBIND11_INTERNALS_VERSION)
# undef PYBIND11_INTERNALS_VERSION
#endif
#define PYBIND11_INTERNALS_VERSION 900000001
#include "test_cpp_conduit_traveler_bindings.h"
namespace pybind11_tests {
namespace test_cpp_conduit {
PYBIND11_MODULE(exo_planet_pybind11, m) {
wrap_traveler(m);
m.def("wrap_very_lonely_traveler", [m]() { wrap_very_lonely_traveler(m); });
}
} // namespace test_cpp_conduit
} // namespace pybind11_tests

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// Copyright (c) 2024 The pybind Community.
#include "test_cpp_conduit_traveler_bindings.h"
namespace pybind11_tests {
namespace test_cpp_conduit {
PYBIND11_MODULE(home_planet_very_lonely_traveler, m) {
m.def("wrap_very_lonely_traveler", [m]() { wrap_very_lonely_traveler(m); });
}
} // namespace test_cpp_conduit
} // namespace pybind11_tests

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# Warning: this is currently used for pyodide, and is not a general out-of-tree
# builder for the tests (yet). Specifically, wheels can't be built from SDists.
[build-system]
requires = ["scikit-build-core"]
build-backend = "scikit_build_core.build"
[project]
name = "pybind11_tests"
version = "0.0.1"
dependencies = ["pytest", "pytest-timeout", "numpy", "scipy"]
[tool.scikit-build]
# Hide a warning while we also support CMake < 3.15
cmake.version = ">=3.15"
[tool.scikit-build.cmake.define]
PYBIND11_FINDPYTHON = true
[tool.cibuildwheel]
test-command = "pytest -o timeout=0 -p no:cacheprovider {project}/tests/test_*.py"

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// Copyright (c) 2024 The pybind Community.
#include "pybind11_tests.h"
#include "test_cpp_conduit_traveler_bindings.h"
#include <typeinfo>
namespace pybind11_tests {
namespace test_cpp_conduit {
TEST_SUBMODULE(cpp_conduit, m) {
m.attr("PYBIND11_PLATFORM_ABI_ID") = py::bytes(PYBIND11_PLATFORM_ABI_ID);
m.attr("cpp_type_info_capsule_Traveler")
= py::capsule(&typeid(Traveler), typeid(std::type_info).name());
m.attr("cpp_type_info_capsule_int") = py::capsule(&typeid(int), typeid(std::type_info).name());
wrap_traveler(m);
wrap_lonely_traveler(m);
}
} // namespace test_cpp_conduit
} // namespace pybind11_tests

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# Copyright (c) 2024 The pybind Community.
from __future__ import annotations
import exo_planet_c_api
import exo_planet_pybind11
import home_planet_very_lonely_traveler
import pytest
from pybind11_tests import cpp_conduit as home_planet
def test_traveler_getattr_actually_exists():
t_h = home_planet.Traveler("home")
assert t_h.any_name == "Traveler GetAttr: any_name luggage: home"
def test_premium_traveler_getattr_actually_exists():
t_h = home_planet.PremiumTraveler("home", 7)
assert t_h.secret_name == "PremiumTraveler GetAttr: secret_name points: 7"
def test_call_cpp_conduit_success():
t_h = home_planet.Traveler("home")
cap = t_h._pybind11_conduit_v1_(
home_planet.PYBIND11_PLATFORM_ABI_ID,
home_planet.cpp_type_info_capsule_Traveler,
b"raw_pointer_ephemeral",
)
assert cap.__class__.__name__ == "PyCapsule"
def test_call_cpp_conduit_platform_abi_id_mismatch():
t_h = home_planet.Traveler("home")
cap = t_h._pybind11_conduit_v1_(
home_planet.PYBIND11_PLATFORM_ABI_ID + b"MISMATCH",
home_planet.cpp_type_info_capsule_Traveler,
b"raw_pointer_ephemeral",
)
assert cap is None
def test_call_cpp_conduit_cpp_type_info_capsule_mismatch():
t_h = home_planet.Traveler("home")
cap = t_h._pybind11_conduit_v1_(
home_planet.PYBIND11_PLATFORM_ABI_ID,
home_planet.cpp_type_info_capsule_int,
b"raw_pointer_ephemeral",
)
assert cap is None
def test_call_cpp_conduit_pointer_kind_invalid():
t_h = home_planet.Traveler("home")
with pytest.raises(
RuntimeError, match='^Invalid pointer_kind: "raw_pointer_ephemreal"$'
):
t_h._pybind11_conduit_v1_(
home_planet.PYBIND11_PLATFORM_ABI_ID,
home_planet.cpp_type_info_capsule_Traveler,
b"raw_pointer_ephemreal",
)
def test_home_only_basic():
t_h = home_planet.Traveler("home")
assert t_h.luggage == "home"
assert home_planet.get_luggage(t_h) == "home"
def test_home_only_premium():
p_h = home_planet.PremiumTraveler("home", 2)
assert p_h.luggage == "home"
assert home_planet.get_luggage(p_h) == "home"
assert home_planet.get_points(p_h) == 2
def test_exo_only_basic():
t_e = exo_planet_pybind11.Traveler("exo")
assert t_e.luggage == "exo"
assert exo_planet_pybind11.get_luggage(t_e) == "exo"
def test_exo_only_premium():
p_e = exo_planet_pybind11.PremiumTraveler("exo", 3)
assert p_e.luggage == "exo"
assert exo_planet_pybind11.get_luggage(p_e) == "exo"
assert exo_planet_pybind11.get_points(p_e) == 3
def test_home_passed_to_exo_basic():
t_h = home_planet.Traveler("home")
assert exo_planet_pybind11.get_luggage(t_h) == "home"
def test_exo_passed_to_home_basic():
t_e = exo_planet_pybind11.Traveler("exo")
assert home_planet.get_luggage(t_e) == "exo"
def test_home_passed_to_exo_premium():
p_h = home_planet.PremiumTraveler("home", 2)
assert exo_planet_pybind11.get_luggage(p_h) == "home"
assert exo_planet_pybind11.get_points(p_h) == 2
def test_exo_passed_to_home_premium():
p_e = exo_planet_pybind11.PremiumTraveler("exo", 3)
assert home_planet.get_luggage(p_e) == "exo"
assert home_planet.get_points(p_e) == 3
@pytest.mark.parametrize(
"traveler_type", [home_planet.Traveler, exo_planet_pybind11.Traveler]
)
def test_exo_planet_c_api_traveler(traveler_type):
t = traveler_type("socks")
assert exo_planet_c_api.GetLuggage(t) == "socks"
@pytest.mark.parametrize(
"premium_traveler_type",
[home_planet.PremiumTraveler, exo_planet_pybind11.PremiumTraveler],
)
def test_exo_planet_c_api_premium_traveler(premium_traveler_type):
pt = premium_traveler_type("gucci", 5)
assert exo_planet_c_api.GetLuggage(pt) == "gucci"
assert exo_planet_c_api.GetPoints(pt) == 5
def test_home_planet_wrap_very_lonely_traveler():
# This does not exercise the cpp_conduit feature, but is here to
# demonstrate that the cpp_conduit feature does not solve all
# cross-extension interoperability issues.
# Here is the proof that the following works for extensions with
# matching `PYBIND11_INTERNALS_ID`s:
# test_cpp_conduit.cpp:
# py::class_<LonelyTraveler>
# home_planet_very_lonely_traveler.cpp:
# py::class_<VeryLonelyTraveler, LonelyTraveler>
# See test_exo_planet_pybind11_wrap_very_lonely_traveler() for the negative
# test.
assert home_planet.LonelyTraveler is not None # Verify that the base class exists.
home_planet_very_lonely_traveler.wrap_very_lonely_traveler()
# Ensure that the derived class exists.
assert home_planet_very_lonely_traveler.VeryLonelyTraveler is not None
def test_exo_planet_pybind11_wrap_very_lonely_traveler():
# See comment under test_home_planet_wrap_very_lonely_traveler() first.
# Here the `PYBIND11_INTERNALS_ID`s don't match between:
# test_cpp_conduit.cpp:
# py::class_<LonelyTraveler>
# exo_planet_pybind11.cpp:
# py::class_<VeryLonelyTraveler, LonelyTraveler>
assert home_planet.LonelyTraveler is not None # Verify that the base class exists.
with pytest.raises(
RuntimeError,
match='^generic_type: type "VeryLonelyTraveler" referenced unknown base type '
'"pybind11_tests::test_cpp_conduit::LonelyTraveler"$',
):
exo_planet_pybind11.wrap_very_lonely_traveler()

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// Copyright (c) 2024 The pybind Community.
#pragma once
#include <pybind11/pybind11.h>
#include "test_cpp_conduit_traveler_types.h"
#include <string>
namespace pybind11_tests {
namespace test_cpp_conduit {
namespace py = pybind11;
inline void wrap_traveler(py::module_ m) {
py::class_<Traveler>(m, "Traveler")
.def(py::init<std::string>())
.def_readwrite("luggage", &Traveler::luggage)
// See issue #3788:
.def("__getattr__", [](const Traveler &self, const std::string &key) {
return "Traveler GetAttr: " + key + " luggage: " + self.luggage;
});
m.def("get_luggage", [](const Traveler &person) { return person.luggage; });
py::class_<PremiumTraveler, Traveler>(m, "PremiumTraveler")
.def(py::init<std::string, int>())
.def_readwrite("points", &PremiumTraveler::points)
// See issue #3788:
.def("__getattr__", [](const PremiumTraveler &self, const std::string &key) {
return "PremiumTraveler GetAttr: " + key + " points: " + std::to_string(self.points);
});
m.def("get_points", [](const PremiumTraveler &person) { return person.points; });
}
inline void wrap_lonely_traveler(py::module_ m) {
py::class_<LonelyTraveler>(std::move(m), "LonelyTraveler");
}
inline void wrap_very_lonely_traveler(py::module_ m) {
py::class_<VeryLonelyTraveler, LonelyTraveler>(std::move(m), "VeryLonelyTraveler");
}
} // namespace test_cpp_conduit
} // namespace pybind11_tests

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// Copyright (c) 2024 The pybind Community.
#pragma once
#include <string>
namespace pybind11_tests {
namespace test_cpp_conduit {
struct Traveler {
explicit Traveler(const std::string &luggage) : luggage(luggage) {}
std::string luggage;
};
struct PremiumTraveler : Traveler {
explicit PremiumTraveler(const std::string &luggage, int points)
: Traveler(luggage), points(points) {}
int points;
};
struct LonelyTraveler {};
struct VeryLonelyTraveler : LonelyTraveler {};
} // namespace test_cpp_conduit
} // namespace pybind11_tests

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#include <pybind11/functional.h>
#include <pybind11/pybind11.h>
#include "pybind11_tests.h"
namespace py = pybind11;
namespace {
struct SpecialReturn {
int value = 99;
};
} // namespace
namespace pybind11 {
namespace detail {
namespace type_caster_std_function_specializations {
template <typename... Args>
struct func_wrapper<SpecialReturn, Args...> : func_wrapper_base {
using func_wrapper_base::func_wrapper_base;
SpecialReturn operator()(Args... args) const {
gil_scoped_acquire acq;
SpecialReturn result;
try {
result = hfunc.f(std::forward<Args>(args)...).template cast<SpecialReturn>();
} catch (error_already_set &) {
result.value += 1;
}
result.value += 100;
return result;
}
};
} // namespace type_caster_std_function_specializations
} // namespace detail
} // namespace pybind11
TEST_SUBMODULE(type_caster_std_function_specializations, m) {
py::class_<SpecialReturn>(m, "SpecialReturn")
.def(py::init<>())
.def_readwrite("value", &SpecialReturn::value);
m.def("call_callback_with_special_return",
[](const std::function<SpecialReturn()> &func) { return func(); });
}

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from __future__ import annotations
from pybind11_tests import type_caster_std_function_specializations as m
def test_callback_with_special_return():
def return_special():
return m.SpecialReturn()
def raise_exception():
raise ValueError("called raise_exception.")
assert return_special().value == 99
assert m.call_callback_with_special_return(return_special).value == 199
assert m.call_callback_with_special_return(raise_exception).value == 200