You haven't specified enough of your requirements to select the best container.
Dynamic size (in theory unlimited, but in practice a couple of thousand should be more than enough)
STL containers are designed to grow as needed.
Ordered, but allowing reorder and insertion at arbitrary locations.
Allowing reorder? A std::map can't be reordered: you can delete from one std::map and insert into another using a different ordering, but as different template instantiations the two variables will have different types. std::list has a
sort() member function [thanks Blastfurnace for pointing this out], particularly efficient for large objects. A std::vector can be resorted easily using the non-member
std::sort() function, particularly efficient for tiny objects.
Efficient insertion at arbitrary locations can be done in a map or list, but how will you find those locations? In a list, searching is linear (you must start from somewhere you already know about and scan forwards or backwards element by element). std::map provides efficient searching, as does an already-sorted vector, but inserting into a vector involves shifting (copying) all the subsequent elements to make space: that's a costly operation in the scheme of things.
Allows for deletion
All containers allow for deletion, but you have the exact-same efficiency issues as you do for insertion (i.e. fast for list if you already know the location, fast for map, deletion in vectors is slow, though you can "mark" elements deleted without removing them, e.g. making a string empty, having a boolean flag in a struct).
Indexed Access - Random Access
vector is indexed numerically (but can be binary searched), map by an arbitrary key (but no numerical index). list is not indexed and must be searched linearly from a known element.
std::list provides an O(n)
size() function (so that it can provide O(1) splice), but you can easily track the size yourself (assuming you won't splice). Other STL containers already have O(1) time for
Consider whether using a std::list will result in lots of inefficient linear searches for the element you need. If not, then a list does give you efficient insertion and deletion. Resorting is good.
A map or hash map will allow quick lookup and easy insertion/deletion, can't be resorted, but you can easily move the data out to another map with another sort criteria (with moderate efficiency.
A vector allows fast searching and in-place resorting, but the worst insert/deletion. It's the fastest for random-access lookup using the element index.