I am learning STL now. I read about set
container. I have question when you want to use set
? After reading description of set it looks like it is useless because we can substitute it by vector
. Could you say pros and cos for vector
vs set
containers. Thanks

1Since you read about set, also read map. Then try comparing again!– Vinayak GargDec 31, 2011 at 6:34

2Choose your container with care– Mr.AnubisDec 31, 2011 at 7:00
5 Answers
A set
is ordered. It is guaranteed to remain in a specific ordering, according to a functor that you provide. No matter what elements you add or remove (unless you add a duplicate, which is not allowed in a set
), it will always be ordered.
A vector
has exactly and only the ordering you explicitly give it. Items in a vector
are where you put them. If you put them in out of order, then they're out of order; you now need to sort
the container to put them back in order.
Admittedly, set
has relatively limited use. With proper discipline, one could insert items into a vector
and keep it ordered. However, if you are constantly inserting and removing items from the container, vector
will run into many issues. It will be doing a lot of copying/moving of elements and so forth, since it is effectively just an array.
The time it takes to insert an item into a vector
is proportional to the number of items already in the vector
. The time it takes to insert an item into a set
is proportional to the log₂ of the number of items. If the number of items is large, that's a huge difference. log₂(100,000) is ~16; that's a major speed improvement. The same goes for removal.
However, if you do all of your insertions at once, at initialization time, then there's no problem. You can insert everything into the vector
, sort it (paying that price once), and then use standard algorithms for sorted vectors
to find elements and iterate over the sorted list. And while iteration over the elements of a set
isn't exactly slow, iterating over a vector
is faster.
So there are cases where a sorted vector
beats a set
. That being said, you really shouldn't bother with the expense of this kind of optimization unless you know that it is necessary. So use a set
unless you have experience with the kind of system you're writing (and thus know that you need that performance) or have profiling data in hand that tells you that you need a vector
and not a set
.

6But isn't the
set
being ordered just an implementation detail? Mathematically speaking, a set has no order. Dec 31, 2011 at 10:33 
51@PaulManta: A
std::set
isn't defined by math; it's defined by the C++ specification. And the specification states that it is ordered. Dec 31, 2011 at 18:03 
2"So use a set unless..." Hmm.. Probably better to use Stroupstrup's advice: "And, yes, my recomendation is to use std::vector by default. More generally, use a contiguous representation unless there is a good reason not to."– user146043Jan 16, 2015 at 11:10

1@Alex: In this case, no. If you're thinking about using
set
, then order is clearly important to you. Keeping astd::vector
sorted requires significant effort. You basically have to build a type around the container. So I wouldn't suggest doing it unless you know there's a legitimate performance gain to be had. Of course, if you have access toflat_set
, then yes, there's almost never a reason to use regularset
. Feb 11, 2016 at 15:04 
5One pitfall for Python users: a Python
set
is unordered, but a C++std::set
is ordered. Mar 27, 2018 at 8:55
They are different things: you decide how vectors are ordered, and you can also put as many equal things into a vector as you please. Sets are ordered in accordance to that set's internal rules (you may set the rules, but the set will deal with the ordering), and you cannot put multiple equal items into a set.
Of course you could maintain a vector of unique items, but your performance would suffer a lot when you do setoriented operations. For example, assume that you have a set of 10000 items and a vector of 10000 distinct unordered items. Now suppose that you need to check if a value X is among the values in the set (or among the values in the vector). When X is not among the items, searching the vector would be some 100 times slower. You would see similar performance differences on calculating set unions and intersections.
To summarize, sets and vectors have different purposes. You can use a vector instead of a set, but it would require more work, and would likely hurt the performance rather severely.

8+1 for uniqueness. i can't believe no one else bothered to point this out. for shame! uniqueness is the main benefit. and not to devalue that, but even the attendant ease of
erase
/emplace
.often lead me to use[unordered_]set
, even if it might in theory be slower  albeit usually in setup parts where speed is no concern and i'm only worried about being barely able to read the code later! e.g. i want to ensure an item is put in the container, but only once; it seems far nicer to writeset.emplace(it)
thanif (vec.find(it) != vec.end() ) { vec.emplace(it) }
(and more still forerase
!) Feb 14, 2016 at 4:44
form cpluplus.com set:
Sets are containers that store unique elements following a specific order.
so the set is ordered AND item are uniquely represented
while vect:
Vectors are sequence containers representing arrays that can change in size.
so vector is in the order you fill it AND can hold multiple identical items
prefer set:
 if you wish to filter multiple identical values
 if you wish to parse items in a specified order (doing this in vector requires to specifically sort vector).
prefer vector:
 if you want to keep identical values
 if you wish to parse items in same order as you pushed them (assuming you don't process the vector order)

1This is the best answer in my opinion. The accepted response is just too confusing to read. This is to the point. Feb 19, 2020 at 5:45
The simple difference is that set can contain only unique values, and it is sorted. So you can use it for the cases where you need to continuously sort the values after every insert / delete.
set<int> a;
vector<int> b;
for (int i = 0; i < 10; ++i)
{
int val = rand() % 10;
a.insert(val);
b.push_back(val);
}
cout << "SET\n"; for (auto i : a) cout << i << ","; cout << endl;
cout << "VEC\n"; for (auto j : b) cout << j << ","; cout << endl;
The output is
SET
0,1,2,4,7,8,9,
VEC
1,7,4,0,9,4,8,8,2,4,
it is faster to search an item against a set than a vector (O(log(n)) vs O(n)). To search an item against a vector, you need to iterate all items in the vector, but the set use redblack tree to optimize the search, only a few item will be looked to find a match.
The set is ordered, it means you can only iterate it from smallest one to biggest one by order, or the reversed order.
But the vector is unordered, you can travel it by the insert order.

1Not true. You could do
std::binary_search
on astd::vector
, which does logarithmic number of comparisons.– ArlenDec 31, 2011 at 10:17 
31