mirror of
https://github.com/pybind/pybind11.git
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6d98d4d8d4
* Allow subclasses of args and kwargs The current implementation disallows subclasses of args and kwargs * Added object type hint to args and kwargs * Added type hinted args and kwargs classes * Changed default type hint to typing.Any * Removed args and kwargs type hint * Updated tests Modified the tests from #5381 to use the real Args and KWArgs classes * Added comment
332 lines
11 KiB
C++
332 lines
11 KiB
C++
/*
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tests/test_kwargs_and_defaults.cpp -- keyword arguments and default values
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Copyright (c) 2016 Wenzel Jakob <wenzel.jakob@epfl.ch>
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All rights reserved. Use of this source code is governed by a
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BSD-style license that can be found in the LICENSE file.
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*/
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#include <pybind11/stl.h>
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#include "constructor_stats.h"
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#include "pybind11_tests.h"
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#include <utility>
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TEST_SUBMODULE(kwargs_and_defaults, m) {
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auto kw_func
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= [](int x, int y) { return "x=" + std::to_string(x) + ", y=" + std::to_string(y); };
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// test_named_arguments
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m.def("kw_func0", kw_func);
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m.def("kw_func1", kw_func, py::arg("x"), py::arg("y"));
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m.def("kw_func2", kw_func, py::arg("x") = 100, py::arg("y") = 200);
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m.def("kw_func3", [](const char *) {}, py::arg("data") = std::string("Hello world!"));
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/* A fancier default argument */
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std::vector<int> list{{13, 17}};
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m.def(
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"kw_func4",
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[](const std::vector<int> &entries) {
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std::string ret = "{";
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for (int i : entries) {
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ret += std::to_string(i) + " ";
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}
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ret.back() = '}';
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return ret;
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},
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py::arg("myList") = list);
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m.def("kw_func_udl", kw_func, "x"_a, "y"_a = 300);
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m.def("kw_func_udl_z", kw_func, "x"_a, "y"_a = 0);
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// test line breaks in default argument representation
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struct CustomRepr {
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std::string repr_string;
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explicit CustomRepr(const std::string &repr) : repr_string(repr) {}
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std::string __repr__() const { return repr_string; }
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};
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py::class_<CustomRepr>(m, "CustomRepr")
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.def(py::init<const std::string &>())
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.def("__repr__", &CustomRepr::__repr__);
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m.def(
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"kw_lb_func0",
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[](const CustomRepr &) {},
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py::arg("custom") = CustomRepr(" array([[A, B], [C, D]]) "));
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m.def(
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"kw_lb_func1",
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[](const CustomRepr &) {},
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py::arg("custom") = CustomRepr(" array([[A, B],\n[C, D]]) "));
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m.def(
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"kw_lb_func2",
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[](const CustomRepr &) {},
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py::arg("custom") = CustomRepr("\v\n array([[A, B], [C, D]])"));
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m.def(
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"kw_lb_func3",
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[](const CustomRepr &) {},
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py::arg("custom") = CustomRepr("array([[A, B], [C, D]]) \f\n"));
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m.def(
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"kw_lb_func4",
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[](const CustomRepr &) {},
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py::arg("custom") = CustomRepr("array([[A, B],\n\f\n[C, D]])"));
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m.def(
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"kw_lb_func5",
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[](const CustomRepr &) {},
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py::arg("custom") = CustomRepr("array([[A, B],\r [C, D]])"));
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m.def("kw_lb_func6", [](const CustomRepr &) {}, py::arg("custom") = CustomRepr(" \v\t "));
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m.def(
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"kw_lb_func7",
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[](const std::string &) {},
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py::arg("str_arg") = "First line.\n Second line.");
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m.def("kw_lb_func8", [](const CustomRepr &) {}, py::arg("custom") = CustomRepr(""));
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// test_args_and_kwargs
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m.def("args_function", [](py::args args) -> py::tuple {
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PYBIND11_WARNING_PUSH
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#ifdef PYBIND11_DETECTED_CLANG_WITH_MISLEADING_CALL_STD_MOVE_EXPLICITLY_WARNING
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PYBIND11_WARNING_DISABLE_CLANG("-Wreturn-std-move")
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#endif
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return args;
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PYBIND11_WARNING_POP
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});
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m.def("args_kwargs_function", [](const py::args &args, const py::kwargs &kwargs) {
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return py::make_tuple(args, kwargs);
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});
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// test_mixed_args_and_kwargs
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m.def("mixed_plus_args",
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[](int i, double j, const py::args &args) { return py::make_tuple(i, j, args); });
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m.def("mixed_plus_kwargs",
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[](int i, double j, const py::kwargs &kwargs) { return py::make_tuple(i, j, kwargs); });
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auto mixed_plus_both = [](int i, double j, const py::args &args, const py::kwargs &kwargs) {
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return py::make_tuple(i, j, args, kwargs);
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};
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m.def("mixed_plus_args_kwargs", mixed_plus_both);
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m.def("mixed_plus_args_kwargs_defaults",
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mixed_plus_both,
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py::arg("i") = 1,
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py::arg("j") = 3.14159);
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m.def(
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"args_kwonly",
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[](int i, double j, const py::args &args, int z) { return py::make_tuple(i, j, args, z); },
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"i"_a,
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"j"_a,
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"z"_a);
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m.def(
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"args_kwonly_kwargs",
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[](int i, double j, const py::args &args, int z, const py::kwargs &kwargs) {
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return py::make_tuple(i, j, args, z, kwargs);
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},
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"i"_a,
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"j"_a,
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py::kw_only{},
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"z"_a);
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m.def(
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"args_kwonly_kwargs_defaults",
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[](int i, double j, const py::args &args, int z, const py::kwargs &kwargs) {
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return py::make_tuple(i, j, args, z, kwargs);
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},
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"i"_a = 1,
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"j"_a = 3.14159,
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"z"_a = 42);
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m.def(
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"args_kwonly_full_monty",
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[](int h, int i, double j, const py::args &args, int z, const py::kwargs &kwargs) {
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return py::make_tuple(h, i, j, args, z, kwargs);
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},
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py::arg() = 1,
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py::arg() = 2,
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py::pos_only{},
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"j"_a = 3.14159,
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"z"_a = 42);
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// test_args_refcount
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// PyPy needs a garbage collection to get the reference count values to match CPython's behaviour
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// PyPy uses the top few bits for REFCNT_FROM_PYPY & REFCNT_FROM_PYPY_LIGHT, so truncate
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#ifdef PYPY_VERSION
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# define GC_IF_NEEDED ConstructorStats::gc()
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# define REFCNT(x) (int) Py_REFCNT(x)
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#else
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# define GC_IF_NEEDED
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# define REFCNT(x) Py_REFCNT(x)
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#endif
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m.def("arg_refcount_h", [](py::handle h) {
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GC_IF_NEEDED;
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return h.ref_count();
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});
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m.def("arg_refcount_h", [](py::handle h, py::handle, py::handle) {
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GC_IF_NEEDED;
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return h.ref_count();
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});
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m.def("arg_refcount_o", [](const py::object &o) {
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GC_IF_NEEDED;
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return o.ref_count();
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});
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m.def("args_refcount", [](py::args a) {
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GC_IF_NEEDED;
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py::tuple t(a.size());
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for (size_t i = 0; i < a.size(); i++) {
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// Use raw Python API here to avoid an extra, intermediate incref on the tuple item:
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t[i] = REFCNT(PyTuple_GET_ITEM(a.ptr(), static_cast<py::ssize_t>(i)));
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}
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return t;
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});
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m.def("mixed_args_refcount", [](const py::object &o, py::args a) {
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GC_IF_NEEDED;
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py::tuple t(a.size() + 1);
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t[0] = o.ref_count();
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for (size_t i = 0; i < a.size(); i++) {
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// Use raw Python API here to avoid an extra, intermediate incref on the tuple item:
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t[i + 1] = REFCNT(PyTuple_GET_ITEM(a.ptr(), static_cast<py::ssize_t>(i)));
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}
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return t;
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});
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// pybind11 won't allow these to be bound: args and kwargs, if present, must be at the end.
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// Uncomment these to test that the static_assert is indeed working:
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// m.def("bad_args1", [](py::args, int) {});
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// m.def("bad_args2", [](py::kwargs, int) {});
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// m.def("bad_args3", [](py::kwargs, py::args) {});
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// m.def("bad_args4", [](py::args, int, py::kwargs) {});
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// m.def("bad_args5", [](py::args, py::kwargs, int) {});
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// m.def("bad_args6", [](py::args, py::args) {});
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// m.def("bad_args7", [](py::kwargs, py::kwargs) {});
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// test_keyword_only_args
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m.def(
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"kw_only_all",
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[](int i, int j) { return py::make_tuple(i, j); },
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py::kw_only(),
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py::arg("i"),
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py::arg("j"));
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m.def(
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"kw_only_some",
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[](int i, int j, int k) { return py::make_tuple(i, j, k); },
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py::arg(),
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py::kw_only(),
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py::arg("j"),
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py::arg("k"));
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m.def(
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"kw_only_with_defaults",
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[](int i, int j, int k, int z) { return py::make_tuple(i, j, k, z); },
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py::arg() = 3,
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"j"_a = 4,
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py::kw_only(),
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"k"_a = 5,
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"z"_a);
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m.def(
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"kw_only_mixed",
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[](int i, int j) { return py::make_tuple(i, j); },
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"i"_a,
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py::kw_only(),
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"j"_a);
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m.def(
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"kw_only_plus_more",
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[](int i, int j, int k, const py::kwargs &kwargs) {
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return py::make_tuple(i, j, k, kwargs);
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},
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py::arg() /* positional */,
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py::arg("j") = -1 /* both */,
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py::kw_only(),
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py::arg("k") /* kw-only */);
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m.def("register_invalid_kw_only", [](py::module_ m) {
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m.def(
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"bad_kw_only",
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[](int i, int j) { return py::make_tuple(i, j); },
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py::kw_only(),
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py::arg() /* invalid unnamed argument */,
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"j"_a);
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});
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// test_positional_only_args
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m.def(
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"pos_only_all",
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[](int i, int j) { return py::make_tuple(i, j); },
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py::arg("i"),
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py::arg("j"),
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py::pos_only());
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m.def(
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"pos_only_mix",
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[](int i, int j) { return py::make_tuple(i, j); },
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py::arg("i"),
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py::pos_only(),
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py::arg("j"));
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m.def(
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"pos_kw_only_mix",
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[](int i, int j, int k) { return py::make_tuple(i, j, k); },
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py::arg("i"),
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py::pos_only(),
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py::arg("j"),
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py::kw_only(),
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py::arg("k"));
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m.def(
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"pos_only_def_mix",
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[](int i, int j, int k) { return py::make_tuple(i, j, k); },
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py::arg("i"),
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py::arg("j") = 2,
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py::pos_only(),
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py::arg("k") = 3);
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// These should fail to compile:
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#ifdef PYBIND11_NEVER_DEFINED_EVER
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// argument annotations are required when using kw_only
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m.def("bad_kw_only1", [](int) {}, py::kw_only());
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// can't specify both `py::kw_only` and a `py::args` argument
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m.def("bad_kw_only2", [](int i, py::args) {}, py::kw_only(), "i"_a);
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#endif
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// test_function_signatures (along with most of the above)
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struct KWClass {
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void foo(int, float) {}
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};
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py::class_<KWClass>(m, "KWClass")
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.def("foo0", &KWClass::foo)
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.def("foo1", &KWClass::foo, "x"_a, "y"_a);
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// Make sure a class (not an instance) can be used as a default argument.
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// The return value doesn't matter, only that the module is importable.
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m.def(
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"class_default_argument",
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[](py::object a) { return py::repr(std::move(a)); },
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"a"_a = py::module_::import("decimal").attr("Decimal"));
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// Initial implementation of kw_only was broken when used on a method/constructor before any
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// other arguments
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// https://github.com/pybind/pybind11/pull/3402#issuecomment-963341987
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struct first_arg_kw_only {};
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py::class_<first_arg_kw_only>(m, "first_arg_kw_only")
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.def(py::init([](int) { return first_arg_kw_only(); }),
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py::kw_only(), // This being before any args was broken
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py::arg("i") = 0)
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.def(
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"method",
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[](first_arg_kw_only &, int, int) {},
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py::kw_only(), // and likewise here
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py::arg("i") = 1,
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py::arg("j") = 2)
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// Closely related: pos_only marker didn't show up properly when it was before any other
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// arguments (although that is fairly useless in practice).
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.def(
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"pos_only",
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[](first_arg_kw_only &, int, int) {},
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py::pos_only{},
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py::arg("i"),
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py::arg("j"));
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// Test support for args and kwargs subclasses
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m.def("args_kwargs_subclass_function",
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[](const py::Args<std::string> &args, const py::KWArgs<std::string> &kwargs) {
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return py::make_tuple(args, kwargs);
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});
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}
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