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Apparently ;-) the standard containers provide some form of guarantees.
What type of guarantees and what exactly are the differences between the different types of container?

Working from the SGI Page I have come up with this:

Container Types:
    Forward Container
        Reverse Container
            Random Access Container
        Front Insert Sequence
        Back  Insert Sequence
    Associative Container
        Simple   Associative Container
        Pair     Associative Container
        Sorted   Associative Container
        Multiple Associative Container

Container Types mapped to Standard Containers

std::vector:    Sequence    Back        Sequence                    Forward/Reverse/Random Container
std::deque:     Sequence    Front/Back  Sequence                    Forward/Reverse/Random Container
std::list:      Sequence    Front/Back  Seuqence                    Forward/Reverse Container
std::set:       Sorted/Simple/Unique    Associative Container       Forward Container
std::map:       Sorted/Pair/Unique      Associative Container       Forward Container
std::multiset:  Sorted/Simple/Multiple  Associative Container       Forward Container
std::multimap:  Sorted/Pair/Multiple    Associative Container       Forward Container

Container Guarantees:

                          For   Rev  Rand        Front  Back  Assoc        Sort   Mult
                    Cont: Cont: Cont Cont: Sequ: Sequ:  Sequ: Cont:        Cont:  Cont:
Copy    Const:      O(n)
Fill    Const:                             O(n)
begin()             O(1)
end()               O(1)
rbegin()                        O(1)
rend()                          O(1)
front()                                    O(1)
push_front()                                     O(1)
pop_front()                                      O(1)
push_back()                                             O(1)
pop_back()                                              O(1)
Insert()                                                                          O(ln(n))
Insert: fill                               O(n)
Insert: range                              O(n)                                   O(kln(n)+n)
size()              O(n)
swap()              O(1)
erase key                                                     O(ln(n))
erase element                                                 O(1)
erase range                                                   O(ln(n)+S)
count()                                                       O(log(n)+k)
find()                                                        O(ln(n))
equal range                                                   O(ln(n))
Lower Bound/Upper Bound                                                    O(ln(n))
Equality                  O(n)
InEquality                O(n)
Element Access                       O(1)
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Can I have a copy of your working to study in my class ? –  nXqd May 7 '10 at 4:14
@nXqd: see –  Loki Astari May 9 '10 at 17:13

4 Answers 4

up vote 22 down vote accepted

Start here: STL Complexity Specifications. Then read through all the container types on that site, and look at the complexity requirements stated.

Hope this helps!

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Did the standards committee keep all of SGI's requirements as-is, or are there differences? –  Mark Ransom Dec 26 '11 at 21:07
@MarkRansom I think this is a guideline but still the final complexities will depend upon the implementation by a vendor. –  Krishna_Oza Mar 12 '14 at 5:27
@krish_oza, no the C++ standard makes complexity guarantees, it's not up to the implementation (unless they can figure out a way to do better which is unlikely). I question whether the SGI documents are identical to the C++ standard; unfortunately I don't know myself. –  Mark Ransom Mar 12 '14 at 12:54

A good summary of the STL operations is provided here :

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I'm not aware of anything like a single table that lets you compare all of them in at one glance (I'm not sure such a table would even be feasible).

Of course the ISO standard document enumerates the complexity requirements in detail, sometimes in various rather readable tables, other times in less readable bullet points for each specific method.

Also the STL library reference at provides the complexity requirements where appropriate.

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I found this nice resource. Probably this is what you all looking for



vector<T> v;                Make an empty vector.                                   O(1)
vector<T> v(n);             Make a vector with N elements.                          O(n)
vector<T> v(n, value);      Make a vector with N elements, initialized to value.    O(n)
vector<T> v(begin, end);    Make a vector and copy the elements from begin to end.  O(n)


v[i]                Return (or set) the I'th element.                       O(1)             Return (or set) the I'th element, with bounds checking. O(1)
v.size()            Return current number of elements.                      O(1)
v.empty()           Return true if vector is empty.                         O(1)
v.begin()           Return random access iterator to start.                 O(1)
v.end()             Return random access iterator to end.                   O(1)
v.front()           Return the first element.                               O(1)
v.back()            Return the last element.                                O(1)
v.capacity()        Return maximum number of elements.                      O(1)


v.push_back(value)          Add value to end.                                               O(1) (amortized)
v.insert(iterator, value)   Insert value at the position indexed by iterator.               O(n)
v.pop_back()                Remove value from end.                                          O(1)
v.assign(begin, end)        Clear the container and copy in the elements from begin to end. O(n)
v.erase(iterator)           Erase value indexed by iterator.                                O(n)
v.erase(begin, end)         Erase the elements from begin to end.                           O(n)

For other containers go into the link

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You should add a Comic Sans trigger warning to that link ;) –  drewish May 30 at 3:17

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