Following this answer I'm now wondering what the rules are for the lifetime of lambdas and how the relate to the lifetime of function pointers which are created by automatic conversion. There are several questions about the lifetime of lambdas (e.g. here and here), in which case the answers are "they behave exactly like you wrote the full functor object yourself", however neither address the conversion to function pointer which could quite sensibly be a special case.
I put together this small working example that illustrates my concern:
#include <iostream>
typedef int (*func_t)(int);
// first case
func_t retFun1() {
static auto lambda = [](int) { return 1; };
// automatically converted to func_t
return lambda;
}
// second case
func_t retFun2() {
// no static
auto lambda = [](int) { return 2; };
// automatically converted to func_t and
// the local variable lambda reaches the end of its life
return lambda;
}
int main() {
const int a = retFun1()(0);
const int b = retFun2()(0);
std::cout << a << "," << b << std::endl;
return 0;
}
Is this well defined for both cases? Or only for retFun1()
? The question is: "is the function that the function pointer points required to be calling the functor object itself, or reimplementing the body in a separate function?" Either one would make sense, but the fact that the conversion to function pointer specifically requires a capture-less lambda suggests that it may actually be the latter.
Put another way - I can see at least two sensible ways a compiler might want to implement such lambdas. One possible, legal implementation might be for a compiler to synthesize code like:
func_t retFun3() {
struct __voodoo_magic_lambda_implementation {
int operator()(int) const {
return 3;
}
static int plainfunction(int) {
return 3;
}
operator func_t() const {
return plainfunction;
}
} lambda;
return lambda;
}
in which case both the static
and non-static
variants of retFun
would be fine. If however it's also legal for a compiler to implement the lambda like:
static int __voodoo_impl_function(int x);
static struct __voodoo_maigc_impl2 {
int operator()(int) const {
return 4;
}
operator func_t() const {
return __voodoo_impl_function;
}
} *__magic_functor_ptr;
static int __voodoo_impl_function(int x) {
return (*__magic_functor_ptr)(x);
}
func_t retFun4() {
__voodoo_maigc_impl2 lambda;
// non-static, local lifetime
__magic_functor_ptr = λ //Or do the equivalent of this in the ctor
return lambda;
}
then retFun2()
is undefined behaviour.
question from:
https://stackoverflow.com/questions/8026170/lifetime-of-lambda-objects-in-relation-to-function-pointer-conversion 与恶龙缠斗过久,自身亦成为恶龙;凝视深渊过久,深渊将回以凝视…