For std::pair, I am just curious to know why this works
std::pair<int, int> response = {1, 2}
while, this doesn't:
if (response == {1, 2}) do something;
Is it because the operator = is overloaded for std::pair while == isn't?
2 Answers
This is just syntax: braced-init-list can be an operand only to [] and () (on the inside) and = and any @= (on the right). The initialization case is also allowed, where there is no operator at all.
answered Apr 15, 2021 at 22:18
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1@Enqueue: I guess you don’t mean the grammar in the standard—cppreference covers it in listing the uses of list-initialization. Apr 19, 2021 at 16:42
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So, list initialization is different than initializer_list and in fact, an object of the latter is automatically created when list initialization is performed or, used as right-operand during assignment. Is this understanding correct?– EnqueueApr 19, 2021 at 17:42
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1@Enqueue: They are different, and some list-initialization produces
std::initializer_list<T>objects, but the contents of a braced-init-list can also be used directly (including as constructor arguments). Apr 19, 2021 at 18:04
People have already provided the answer. I would just want to add.
EDIT: The second one is not a comparison with an std::initializer_list and is invalid syntax actually since something like {1,2} doesn't have any inherent type as such (try decltype({1,2}) x. That's the language's syntax for list-initialization which fails since this isn't a statement for initialization per se unlike x{1,2}/x = {1,2}/foo({1,2}) etc. Something like {1,2} can be used to construct an initializer_list using list-initialization but isn't an std::initializer_list in itself.
Comaprison operators between an std::pair and an std::initializer_list are not available and probably for a good reason because an initializr_list is a
lightweight proxy object that provides access to an array of objects of type const T.
Note that the type of all the members of an initializer_list is of the same type const T. This isn't the case for a pair that usually has distinct types T and U.
If you want, you could write an equality function between a pair and an initializer_list something as follows, obviously adhering to many constraints:
#include <iostream>
#include <type_traits>
#include <utility>
#include <initializer_list>
template <typename T, typename U>
bool foo(const std::pair<T, U>&pair,
const std::initializer_list<std::common_type_t<T, U>>& list) {
if(list.size() != 2) {
return false;
}
auto it = begin(list);
return pair.first == *it && pair.second == *std::next(it);
}
int main() {
{
std::pair<int, int> pair {1, 3};
std::initializer_list<int> list {1, 2};
std::cout<<std::boolalpha<<foo(pair, list)<<'\n';
}
{
std::pair<int, int> pair {1, 2};
std::initializer_list<int> list {1, 2};
std::cout<<std::boolalpha<<foo(pair, list)<<'\n';
}
{
std::pair<int, int> pair {1, 2};
std::initializer_list<int> list {1, 2, 3};
std::cout<<std::boolalpha<<foo(pair, list)<<'\n';
}
{
std::pair<int, char> pair {1, 2}; //common type is int
std::initializer_list<int> list {1, 2};
std::cout<<std::boolalpha<<foo(pair, list)<<'\n';
}
{
// std::pair<int, long> pair {1, 2}; //common type is long int
// std::initializer_list<int> list {1, 2}; //fails template substitution
// std::cout<<std::boolalpha<<foo(pair, list)<<'\n';
}
{
std::pair<int, long> pair {1, 2}; //common type is long int
std::initializer_list<long int> list {1, 2}; //same as common type of pair
std::cout<<std::boolalpha<<foo(pair, list)<<'\n';
}
{
std::pair<int, long> pair {1, 2}; //common type is long int
if(foo(pair, {1, 2})) {
std::cout<<"Matched\n";
}
}
}
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2It’s not a comparison to an
initializer_list: it doesn’t even parse, and if it did it still wouldn’t be an expression of that or any other type. Apr 16, 2021 at 2:13 -
pair<int, std::string>operator=, it is list-initialization