With template functions from <algorithm>
you can do things like this
struct foo
{
int bar, baz;
};
struct bar_less
{
// compare foo with foo
bool operator()(const foo& lh, const foo& rh) const
{
return lh.bar < rh.bar;
}
template<typename T> // compare some T with foo
bool operator()(T lh, const foo& rh) const
{
return lh < rh.bar;
}
template<typename T> // compare foo with some T
bool operator()(const foo& lh, T rh) const
{
return lh.bar < rh;
}
};
int main()
{
foo foos[] = { {1, 2}, {2, 3}, {4, 5} };
bar_less cmp;
int bar_value = 2;
// find element {2, 3} using an int
auto it = std::lower_bound(begin(foos), end(foos), bar_value, cmp);
std::cout << it->baz;
}
In std::set
methods like find
you have to pass an object of type set::key_type
which often forces you to create a dummy object.
set<foo> foos;
foo search_dummy = {2,3}; // don't need a full foo object;
auto it = foos.find(search_dummy);
It would be so helpful if one can call just foos.find(2)
. Is there any reason why find
can't be a template, accepting everything that can be passed to the less predicate. And if it is just missing, why isn't it in C++11 (I think it isn't).
Edit
The main question is WHY isn't it possible and if it was posiible, WHY decided the standard not to provide it. A a second question you can propose workarounds :-) (boost::multi_index_container
crosses my mind just now, which provides key extraction from value types)
Another Example with a more expensive to construct value type. The key name
is part of the type and should not be used as a copy in maps key;
struct Person
{
std::string name;
std::string adress;
std::string phone, email, fax, stackoferflowNickname;
int age;
std::vector<Person*> friends;
std::vector<Relation> relations;
};
struct PersonOrder
{
// assume that the full name is an unique identifier
bool operator()(const Person& lh, const Person& rh) const
{
return lh.name < rh.name;
}
};
class PersonRepository
{
public:
const Person& FindPerson(const std::string& name) const
{
Person searchDummy; // ouch
searchDummy.name = name;
return FindPerson(searchDummy);
}
const Person& FindPerson(const Person& person) const;
private:
std::set<Person, PersonOrder> persons_;
// what i want to avoid
// std::map<std::string, Person> persons_;
// Person searchDummyForReuseButNotThreadSafe;
};
std::find
with a suitable predicate.foo
, why are you using aset
and not amap
? That's the whole point of them being different types: you search based on the key, not the value. You only useset
if the search key is the value (or if you just want a sorted collection of items).foo
. If I storePerson
s uniquely indexed by its full name andName
is property ofPerson
I'd like to store them in aset
(or to definemap::value_type
toPerson
and something likemap::key_extractor
toPerson::Name
)