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pybind11/tests/test_builtin_casters.cpp
Laramie Leavitt 5469c238c8
Adjusting type_caster<std::reference_wrapper<T>> to support const/non-const propagation in cast_op. (#2705) 
* Allow type_caster of std::reference_wrapper<T> to be the same as a native reference.

Before, both std::reference_wrapper<T> and std::reference_wrapper<const T> would
invoke cast_op<type>. This doesn't allow the type_caster<> specialization for T
to distinguish reference_wrapper types from value types.

After, the type_caster<> specialization invokes cast_op<type&>, which allows
reference_wrapper to behave in the same way as a native reference type.

* Add tests/examples for std::reference_wrapper<const T>

* Add tests which use mutable/immutable variants

This test is a chimera; it blends the pybind11 casters with a custom
pytype implementation that supports immutable and mutable calls.

In order to detect the immutable/mutable state, the cast_op needs
to propagate it, even through e.g. std::reference<const T>

Note: This is still a work in progress; some things are crashing,
which likely means that I have a refcounting bug or something else
missing.

* Add/finish tests that distinguish const& from &

Fixes the bugs in my custom python type implementation,
demonstrate test that requires const& and reference_wrapper<const T>
being treated differently from Non-const.

* Add passing a const to non-const method.

* Demonstrate non-const conversion of reference_wrapper in tests.

Apply formatting presubmit check.

* Fix build errors from presubmit checks.

* Try and fix a few more CI errors

* More CI fixes.

* More CI fixups.

* Try and get PyPy to work.

* Additional minor fixups. Getting close to CI green.

* More ci fixes?

* fix clang-tidy warnings from presubmit

* fix more clang-tidy warnings

* minor comment and consistency cleanups

* PyDECREF -> Py_DECREF

* copy/move constructors

* Resolve codereview comments

* more review comment fixes

* review comments: remove spurious &

* Make the test fail even when the static_assert is commented out.

This expands the test_freezable_type_caster a bit by:
1/ adding accessors .is_immutable and .addr to compare identity
from python.
2/ Changing the default cast_op of the type_caster<> specialization
to return a non-const value. In normal codepaths this is a reasonable
default.
3/ adding roundtrip variants to exercise the by reference, by pointer
and by reference_wrapper in all call paths.  In conjunction with 2/, this
demonstrates the failure case of the existing std::reference_wrpper conversion,
which now loses const in a similar way that happens when using the default cast_op_type<>.

* apply presubmit formatting

* Revert inclusion of test_freezable_type_caster

There's some concern that this test is a bit unwieldly because of the use
of the raw <Python.h> functions. Removing for now.

* Add a test that validates const references propagation.

This test verifies that cast_op may be used to correctly detect
const reference types when used with std::reference_wrapper.

* mend

* Review comments based changes.

1. std::add_lvalue_reference<type> -> type&
2. Simplify the test a little more; we're never returning the ConstRefCaster
type so the class_ definition can be removed.

* formatted files again.

* Move const_ref_caster test to builtin_casters

* Review comments: use cast_op and adjust some comments.

* Simplify ConstRefCasted test

I like this version better as it moves the assertion that matters
back into python.
2020-12-15 16:53:55 -08:00

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/*
tests/test_builtin_casters.cpp -- Casters available without any additional headers
Copyright (c) 2017 Wenzel Jakob <wenzel.jakob@epfl.ch>
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/complex.h>
#if defined(_MSC_VER)
# pragma warning(push)
# pragma warning(disable: 4127) // warning C4127: Conditional expression is constant
#endif
struct ConstRefCasted {
int tag;
};
PYBIND11_NAMESPACE_BEGIN(pybind11)
PYBIND11_NAMESPACE_BEGIN(detail)
template <>
class type_caster<ConstRefCasted> {
public:
static constexpr auto name = _<ConstRefCasted>();
// Input is unimportant, a new value will always be constructed based on the
// cast operator.
bool load(handle, bool) { return true; }
operator ConstRefCasted&&() { value = {1}; return std::move(value); }
operator ConstRefCasted&() { value = {2}; return value; }
operator ConstRefCasted*() { value = {3}; return &value; }
operator const ConstRefCasted&() { value = {4}; return value; }
operator const ConstRefCasted*() { value = {5}; return &value; }
// custom cast_op to explicitly propagate types to the conversion operators.
template <typename T_>
using cast_op_type =
/// const
conditional_t<
std::is_same<remove_reference_t<T_>, const ConstRefCasted*>::value, const ConstRefCasted*,
conditional_t<
std::is_same<T_, const ConstRefCasted&>::value, const ConstRefCasted&,
/// non-const
conditional_t<
std::is_same<remove_reference_t<T_>, ConstRefCasted*>::value, ConstRefCasted*,
conditional_t<
std::is_same<T_, ConstRefCasted&>::value, ConstRefCasted&,
/* else */ConstRefCasted&&>>>>;
private:
ConstRefCasted value = {0};
};
PYBIND11_NAMESPACE_END(detail)
PYBIND11_NAMESPACE_END(pybind11)
TEST_SUBMODULE(builtin_casters, m) {
// test_simple_string
m.def("string_roundtrip", [](const char *s) { return s; });
// test_unicode_conversion
// Some test characters in utf16 and utf32 encodings. The last one (the 𝐀) contains a null byte
char32_t a32 = 0x61 /*a*/, z32 = 0x7a /*z*/, ib32 = 0x203d /*‽*/, cake32 = 0x1f382 /*🎂*/, mathbfA32 = 0x1d400 /*𝐀*/;
char16_t b16 = 0x62 /*b*/, z16 = 0x7a, ib16 = 0x203d, cake16_1 = 0xd83c, cake16_2 = 0xdf82, mathbfA16_1 = 0xd835, mathbfA16_2 = 0xdc00;
std::wstring wstr;
wstr.push_back(0x61); // a
wstr.push_back(0x2e18); // ⸘
if (sizeof(wchar_t) == 2) { wstr.push_back(mathbfA16_1); wstr.push_back(mathbfA16_2); } // 𝐀, utf16
else { wstr.push_back((wchar_t) mathbfA32); } // 𝐀, utf32
wstr.push_back(0x7a); // z
m.def("good_utf8_string", []() { return std::string((const char*)u8"Say utf8\u203d \U0001f382 \U0001d400"); }); // Say utf8‽ 🎂 𝐀
m.def("good_utf16_string", [=]() { return std::u16string({ b16, ib16, cake16_1, cake16_2, mathbfA16_1, mathbfA16_2, z16 }); }); // b‽🎂𝐀z
m.def("good_utf32_string", [=]() { return std::u32string({ a32, mathbfA32, cake32, ib32, z32 }); }); // a𝐀🎂‽z
m.def("good_wchar_string", [=]() { return wstr; }); // a‽𝐀z
m.def("bad_utf8_string", []() { return std::string("abc\xd0" "def"); });
m.def("bad_utf16_string", [=]() { return std::u16string({ b16, char16_t(0xd800), z16 }); });
// Under Python 2.7, invalid unicode UTF-32 characters don't appear to trigger UnicodeDecodeError
if (PY_MAJOR_VERSION >= 3)
m.def("bad_utf32_string", [=]() { return std::u32string({ a32, char32_t(0xd800), z32 }); });
if (PY_MAJOR_VERSION >= 3 || sizeof(wchar_t) == 2)
m.def("bad_wchar_string", [=]() { return std::wstring({ wchar_t(0x61), wchar_t(0xd800) }); });
m.def("u8_Z", []() -> char { return 'Z'; });
m.def("u8_eacute", []() -> char { return '\xe9'; });
m.def("u16_ibang", [=]() -> char16_t { return ib16; });
m.def("u32_mathbfA", [=]() -> char32_t { return mathbfA32; });
m.def("wchar_heart", []() -> wchar_t { return 0x2665; });
// test_single_char_arguments
m.attr("wchar_size") = py::cast(sizeof(wchar_t));
m.def("ord_char", [](char c) -> int { return static_cast<unsigned char>(c); });
m.def("ord_char_lv", [](char &c) -> int { return static_cast<unsigned char>(c); });
m.def("ord_char16", [](char16_t c) -> uint16_t { return c; });
m.def("ord_char16_lv", [](char16_t &c) -> uint16_t { return c; });
m.def("ord_char32", [](char32_t c) -> uint32_t { return c; });
m.def("ord_wchar", [](wchar_t c) -> int { return c; });
// test_bytes_to_string
m.def("strlen", [](char *s) { return strlen(s); });
m.def("string_length", [](std::string s) { return s.length(); });
#ifdef PYBIND11_HAS_U8STRING
m.attr("has_u8string") = true;
m.def("good_utf8_u8string", []() { return std::u8string(u8"Say utf8\u203d \U0001f382 \U0001d400"); }); // Say utf8‽ 🎂 𝐀
m.def("bad_utf8_u8string", []() { return std::u8string((const char8_t*)"abc\xd0" "def"); });
m.def("u8_char8_Z", []() -> char8_t { return u8'Z'; });
// test_single_char_arguments
m.def("ord_char8", [](char8_t c) -> int { return static_cast<unsigned char>(c); });
m.def("ord_char8_lv", [](char8_t &c) -> int { return static_cast<unsigned char>(c); });
#endif
// test_string_view
#ifdef PYBIND11_HAS_STRING_VIEW
m.attr("has_string_view") = true;
m.def("string_view_print", [](std::string_view s) { py::print(s, s.size()); });
m.def("string_view16_print", [](std::u16string_view s) { py::print(s, s.size()); });
m.def("string_view32_print", [](std::u32string_view s) { py::print(s, s.size()); });
m.def("string_view_chars", [](std::string_view s) { py::list l; for (auto c : s) l.append((std::uint8_t) c); return l; });
m.def("string_view16_chars", [](std::u16string_view s) { py::list l; for (auto c : s) l.append((int) c); return l; });
m.def("string_view32_chars", [](std::u32string_view s) { py::list l; for (auto c : s) l.append((int) c); return l; });
m.def("string_view_return", []() { return std::string_view((const char*)u8"utf8 secret \U0001f382"); });
m.def("string_view16_return", []() { return std::u16string_view(u"utf16 secret \U0001f382"); });
m.def("string_view32_return", []() { return std::u32string_view(U"utf32 secret \U0001f382"); });
# ifdef PYBIND11_HAS_U8STRING
m.def("string_view8_print", [](std::u8string_view s) { py::print(s, s.size()); });
m.def("string_view8_chars", [](std::u8string_view s) { py::list l; for (auto c : s) l.append((std::uint8_t) c); return l; });
m.def("string_view8_return", []() { return std::u8string_view(u8"utf8 secret \U0001f382"); });
# endif
#endif
// test_integer_casting
m.def("i32_str", [](std::int32_t v) { return std::to_string(v); });
m.def("u32_str", [](std::uint32_t v) { return std::to_string(v); });
m.def("i64_str", [](std::int64_t v) { return std::to_string(v); });
m.def("u64_str", [](std::uint64_t v) { return std::to_string(v); });
// test_tuple
m.def("pair_passthrough", [](std::pair<bool, std::string> input) {
return std::make_pair(input.second, input.first);
}, "Return a pair in reversed order");
m.def("tuple_passthrough", [](std::tuple<bool, std::string, int> input) {
return std::make_tuple(std::get<2>(input), std::get<1>(input), std::get<0>(input));
}, "Return a triple in reversed order");
m.def("empty_tuple", []() { return std::tuple<>(); });
static std::pair<RValueCaster, RValueCaster> lvpair;
static std::tuple<RValueCaster, RValueCaster, RValueCaster> lvtuple;
static std::pair<RValueCaster, std::tuple<RValueCaster, std::pair<RValueCaster, RValueCaster>>> lvnested;
m.def("rvalue_pair", []() { return std::make_pair(RValueCaster{}, RValueCaster{}); });
m.def("lvalue_pair", []() -> const decltype(lvpair) & { return lvpair; });
m.def("rvalue_tuple", []() { return std::make_tuple(RValueCaster{}, RValueCaster{}, RValueCaster{}); });
m.def("lvalue_tuple", []() -> const decltype(lvtuple) & { return lvtuple; });
m.def("rvalue_nested", []() {
return std::make_pair(RValueCaster{}, std::make_tuple(RValueCaster{}, std::make_pair(RValueCaster{}, RValueCaster{}))); });
m.def("lvalue_nested", []() -> const decltype(lvnested) & { return lvnested; });
static std::pair<int, std::string> int_string_pair{2, "items"};
m.def("int_string_pair", []() { return &int_string_pair; });
// test_builtins_cast_return_none
m.def("return_none_string", []() -> std::string * { return nullptr; });
m.def("return_none_char", []() -> const char * { return nullptr; });
m.def("return_none_bool", []() -> bool * { return nullptr; });
m.def("return_none_int", []() -> int * { return nullptr; });
m.def("return_none_float", []() -> float * { return nullptr; });
m.def("return_none_pair", []() -> std::pair<int,int> * { return nullptr; });
// test_none_deferred
m.def("defer_none_cstring", [](char *) { return false; });
m.def("defer_none_cstring", [](py::none) { return true; });
m.def("defer_none_custom", [](UserType *) { return false; });
m.def("defer_none_custom", [](py::none) { return true; });
m.def("nodefer_none_void", [](void *) { return true; });
m.def("nodefer_none_void", [](py::none) { return false; });
// test_void_caster
m.def("load_nullptr_t", [](std::nullptr_t) {}); // not useful, but it should still compile
m.def("cast_nullptr_t", []() { return std::nullptr_t{}; });
// test_bool_caster
m.def("bool_passthrough", [](bool arg) { return arg; });
m.def("bool_passthrough_noconvert", [](bool arg) { return arg; }, py::arg().noconvert());
// test_reference_wrapper
m.def("refwrap_builtin", [](std::reference_wrapper<int> p) { return 10 * p.get(); });
m.def("refwrap_usertype", [](std::reference_wrapper<UserType> p) { return p.get().value(); });
m.def("refwrap_usertype_const", [](std::reference_wrapper<const UserType> p) { return p.get().value(); });
m.def("refwrap_lvalue", []() -> std::reference_wrapper<UserType> {
static UserType x(1);
return std::ref(x);
});
m.def("refwrap_lvalue_const", []() -> std::reference_wrapper<const UserType> {
static UserType x(1);
return std::cref(x);
});
// Not currently supported (std::pair caster has return-by-value cast operator);
// triggers static_assert failure.
//m.def("refwrap_pair", [](std::reference_wrapper<std::pair<int, int>>) { });
m.def("refwrap_list", [](bool copy) {
static IncType x1(1), x2(2);
py::list l;
for (auto &f : {std::ref(x1), std::ref(x2)}) {
l.append(py::cast(f, copy ? py::return_value_policy::copy
: py::return_value_policy::reference));
}
return l;
}, "copy"_a);
m.def("refwrap_iiw", [](const IncType &w) { return w.value(); });
m.def("refwrap_call_iiw", [](IncType &w, py::function f) {
py::list l;
l.append(f(std::ref(w)));
l.append(f(std::cref(w)));
IncType x(w.value());
l.append(f(std::ref(x)));
IncType y(w.value());
auto r3 = std::ref(y);
l.append(f(r3));
return l;
});
// test_complex
m.def("complex_cast", [](float x) { return "{}"_s.format(x); });
m.def("complex_cast", [](std::complex<float> x) { return "({}, {})"_s.format(x.real(), x.imag()); });
// test int vs. long (Python 2)
m.def("int_cast", []() {return (int) 42;});
m.def("long_cast", []() {return (long) 42;});
m.def("longlong_cast", []() {return ULLONG_MAX;});
/// test void* cast operator
m.def("test_void_caster", []() -> bool {
void *v = (void *) 0xabcd;
py::object o = py::cast(v);
return py::cast<void *>(o) == v;
});
// Tests const/non-const propagation in cast_op.
m.def("takes", [](ConstRefCasted x) { return x.tag; });
m.def("takes_move", [](ConstRefCasted&& x) { return x.tag; });
m.def("takes_ptr", [](ConstRefCasted* x) { return x->tag; });
m.def("takes_ref", [](ConstRefCasted& x) { return x.tag; });
m.def("takes_ref_wrap", [](std::reference_wrapper<ConstRefCasted> x) { return x.get().tag; });
m.def("takes_const_ptr", [](const ConstRefCasted* x) { return x->tag; });
m.def("takes_const_ref", [](const ConstRefCasted& x) { return x.tag; });
m.def("takes_const_ref_wrap", [](std::reference_wrapper<const ConstRefCasted> x) { return x.get().tag; });
}
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