Jer*_*hoy 8 c++ lambda gcc unique-ptr c++11
我们可以使用lambda作为带有std :: unique_ptr的删除器吗?Actualy,我用clang ++做了它,很高兴这样做.
我正在用std::swap它换到std::unique_ptr<ObjType, decltyp(deleter)>;哪里auto deleter = [](struct addrinfo* ptr){if (ptr != nullptr) {freeaddrinfo(ptr);} };.Clang的交换似乎不需要复制赋值运算符,但gcc的std :: swap确实如你在那些日志中看到的那样:
In file included from /usr/include/c++/4.8.1/memory:81:0,
from /home/zenol/proj/src/PROJ/TCPClient.cpp:28:
/usr/include/c++/4.8.1/bits/unique_ptr.h: In instantiation of ‘std::unique_ptr<_Tp, _Dp>& std::unique_ptr<_Tp, _Dp>::operator=(std::unique_ptr<_Tp, _Dp>&&) [with _Tp = addrinfo; _Dp = Proj::TCPClient::connect(const Proj::SocketAddress&, int)::__lambda0]’:
/usr/include/c++/4.8.1/bits/move.h:176:11: required from ‘void std::swap(_Tp&, _Tp&) [with _Tp = std::unique_ptr<addrinfo, Proj::TCPClient::connect(const Proj::SocketAddress&, int)::__lambda0>]’
/home/zenol/proj/src/Proj/SocketHelp.hpp:109:50: required from ‘void Proj::retrieve_addresses(std::string, int, addrinfo&, addrinfo*&, T&, U) [with T = std::unique_ptr<addrinfo, Proj::TCPClient::connect(const Proj::SocketAddress&, int)::__lambda0>; U = Proj::TCPClient::connect(const Proj::SocketAddress&, int)::__lambda0; std::string = std::basic_string<char>]’
/home/zenol/proj/src/PROJ/TCPClient.cpp:65:49: required from here
/usr/include/c++/4.8.1/bits/unique_ptr.h:193:16: erreur: use of deleted function ‘Proj::TCPClient::connect(const Proj::SocketAddress&, int)::__lambda0& Proj::TCPClient::connect(const Proj::SocketAddress&, int)::__lambda0::operator=(const Proj::TCPClient::connect(const Proj::SocketAddress&, int)::__lambda0&)’
get_deleter() = std::forward<deleter_type>(__u.get_deleter());
^
/home/zenol/proj/src/Proj/TCPClient.cpp:56:21: note: a lambda closure type has a deleted copy assignment operator
auto deleter = [](struct addrinfo* ptr)
^
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什么说标准?我可以设法使用这两个std :: unique_ptr吗?它们是一种解决方法吗?(也许将lambda封装在std :: function中?...)
编辑:这是一个应该或多或少相同的小例子:
auto deleter = [](struct addrinfo* ptr)
{if (ptr != nullptr) {freeaddrinfo(ptr);} };
std::unique_ptr<struct addrinfo, decltype(deleter)>
resources_keeper(nullptr, deleter);
int main()
{
decltype(resources_keeper) plouf1(nullptr, deleter);
decltype(resources_keeper) plouf2(nullptr, deleter);
std::swap(plouf1, plouf2);
return 0;
}
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错误 :
In file included from /usr/include/c++/4.8.1/bits/stl_pair.h:59:0,
from /usr/include/c++/4.8.1/bits/stl_algobase.h:64,
from /usr/include/c++/4.8.1/memory:62,
from mini.cpp:1:
/usr/include/c++/4.8.1/bits/move.h: In instantiation of ‘void std::swap(_Tp&, _Tp&) [with _Tp = __lambda0]’:
/usr/include/c++/4.8.1/tuple:381:36: required from ‘void std::_Tuple_impl<_Idx, _Head, _Tail ...>::_M_swap(std::_Tuple_impl<_Idx, _Head, _Tail ...>&) [with long unsigned int _Idx = 1ul; _Head = __lambda0; _Tail = {}]’
/usr/include/c++/4.8.1/tuple:382:35: required from ‘void std::_Tuple_impl<_Idx, _Head, _Tail ...>::_M_swap(std::_Tuple_impl<_Idx, _Head, _Tail ...>&) [with long unsigned int _Idx = 0ul; _Head = addrinfo*; _Tail = {__lambda0}]’
/usr/include/c++/4.8.1/tuple:667:33: required from ‘void std::tuple<_T1, _T2>::swap(std::tuple<_T1, _T2>&) [with _T1 = addrinfo*; _T2 = __lambda0]’
/usr/include/c++/4.8.1/tuple:1050:7: required from ‘void std::swap(std::tuple<_Elements ...>&, std::tuple<_Elements ...>&) [with _Elements = {addrinfo*, __lambda0}]’
/usr/include/c++/4.8.1/bits/unique_ptr.h:269:21: required from ‘void std::unique_ptr<_Tp, _Dp>::swap(std::unique_ptr<_Tp, _Dp>&) [with _Tp = addrinfo; _Dp = __lambda0]’
/usr/include/c++/4.8.1/bits/unique_ptr.h:484:7: required from ‘void std::swap(std::unique_ptr<_Tp, _Dp>&, std::unique_ptr<_Tp, _Dp>&) [with _Tp = addrinfo; _Dp = __lambda0]’
mini.cpp:21:29: required from here
/usr/include/c++/4.8.1/bits/move.h:176:11: erreur: use of deleted function ‘__lambda0& __lambda0::operator=(const __lambda0&)’
__a = _GLIBCXX_MOVE(__b);
^
mini.cpp:9:17: note: a lambda closure type has a deleted copy assignment operator
auto deleter = [](struct addrinfo* ptr)
^
In file included from /usr/include/c++/4.8.1/bits/stl_pair.h:59:0,
from /usr/include/c++/4.8.1/bits/stl_algobase.h:64,
from /usr/include/c++/4.8.1/memory:62,
from mini.cpp:1:
/usr/include/c++/4.8.1/bits/move.h:177:11: erreur: use of deleted function ‘__lambda0& __lambda0::operator=(const __lambda0&)’
__b = _GLIBCXX_MOVE(__tmp);
^
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这与unique_ptror 无关tuple,你可以将错误减少到:
int main()
{
auto deleter = []() { };
auto del2 = deleter;
deleter = static_cast<decltype(deleter)>(del2);
}
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哪个用Clang编译但是用G ++失败,给出了这个错误:
t.cc: In function ‘int main()’:
t.cc:5:11: error: use of deleted function ‘main()::<lambda()>& main()::<lambda()>::operator=(const main()::<lambda()>&)’
deleter = static_cast<decltype(deleter)>(del2);
^
t.cc:3:19: note: a lambda closure type has a deleted copy assignment operator
auto deleter = []() { };
^
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最后的C++ 11标准在[expr.prim.lambda]/19中说明:
与lambda表达式关联的闭包类型具有已删除(8.4.3)的默认构造函数和已删除的复制赋值运算符.它有一个隐式声明的复制构造函数(12.8),并且可能有一个隐式声明的移动构造函数(12.8).
因此,编译器是否可以移动 - 可分配.
扩展乔纳森·韦克利的答案:
当你交换到unique_ptrs 时,你还必须交换它们的删除器。您看到的问题归结为:clang 可以交换相同类型的两个 lambda,而 gcc 不能(正如 Jonathan 引用的那样,标准允许两者)。示范:
#include <utility>
int main() {
auto f = [](){};
auto g(f);
std::swap(f, g);
}
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此代码可以使用 clang 运行,但无法使用 gcc 编译。(那没关系。)
这就是它发生的原因。
我建议如下:
#include <memory>
#include <utility>
struct addrinfo { };
void freeaddrinfo(addrinfo* ) { }
struct deleter {
void operator()(struct addrinfo* ptr) {
if (ptr != nullptr)
freeaddrinfo(ptr);
}
};
using resources_keeper = std::unique_ptr<struct addrinfo, deleter>;
int main() {
resources_keeper plouf1(nullptr);
resources_keeper plouf2(nullptr);
std::swap(plouf1, plouf2);
return 0;
}
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请注意,代码也变得更清晰、更具可读性。
如果你绝对必须用 lambda 来解决这个问题,那么也许你可以尝试一些像这样的黑客行为:只交换指针,而不交换删除器。
#include <iostream>
#include <memory>
#include <utility>
using namespace std;
template <class T, class D>
void swap_pointers_but_not_deleters(unique_ptr<T,D>& x, unique_ptr<T,D>& y) noexcept {
T* x_ptr = x.release();
x.reset(y.release());
y.reset(x_ptr);
}
int main() {
auto deleter = [](int* p){ delete p; };
unique_ptr<int,decltype(deleter)> a(new int(1),deleter);
unique_ptr<int,decltype(deleter)> b(new int(2),deleter);
swap_pointers_but_not_deleters(a, b);
cout << "a = " << *a << ", b = " << *b << endl;
}
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虽然这段代码看起来可行,但我真的不喜欢它。我建议第一个不使用 lambda 的解决方案。