I am new to c++11 and trying to understand to meaning of std::move
and unique_ptr
and wrote the following code, which I use std::move
on a unique_ptr
in two different ways:
void unique_ptr_plain_move() {
unique_ptr<int> intptr(new int(10));
unique_ptr<int> intptr2;
printf("*intptr = %d\n", *intptr);
intptr2 = std::move(intptr);
printf("*intptr2 = %d\n", *intptr2);
// as expected, crash here as we have already moved intptr's ownership.
printf("*intptr = %d\n", *intptr);
}
/////////////////////////////////////////////
void function_call_move(unique_ptr<int>&& intptr) {
printf("[func] *intptr = %d\n", *intptr);
}
void unique_ptr_function_call_move() {
unique_ptr<int> intptr(new int(10));
printf("*intptr = %d\n", *intptr);
function_call_move(std::move(intptr));
// this does not crash, intptr still has the ownership of its pointed instance ....
printf("*intptr = %d\n", *intptr);
}
In unique_ptr_plain_move()
, intptr2
takes the ownership of intptr
after std::move
and therefore we can no longer use intptr
. However, in unique_ptr_function_call_move()
, when using std::move
in a function call, intptr
still have its ownership of its pointed instance. Can I know what exactly happened when we pass a std::move(unique_ptr)
to a function? Thank you.
std::move
doesn't by itself move anything. It just allows other functions that want to steal contents of the object to do so.function_call_move
is not such a function.=
operation does the ownership transfer, not thestd::move
, am I right at this part?std::move
namedstd::move
?