105

So I've got a list:

list<Object> myList;
myList.push_back(Object myObject);

I'm not sure but I'm confident that this would be the "0th" element in the array. Is there any function I can use that will return "myObject"?

Object copy = myList.find_element(0);

?

4
  • 8
    There is no array -- it's a list. If you want to index by integer, why don't you use vector instead? Apr 20, 2011 at 16:52
  • 2
    If you always want element 0, use front(). Apr 20, 2011 at 16:53
  • I have not tested this, but I would assume myList.front() + num would work here Dec 15, 2013 at 12:03
  • 2
    @SergueiFedorov: no, it doesn't
    – Algoman
    May 27, 2015 at 10:56

5 Answers 5

145

If you frequently need to access the Nth element of a sequence, std::list, which is implemented as a doubly linked list, is probably not the right choice. std::vector or std::deque would likely be better.

That said, you can get an iterator to the Nth element using std::advance:

std::list<Object> l;
// add elements to list 'l'...

unsigned N = /* index of the element you want to retrieve */;
if (l.size() > N)
{
    std::list<Object>::iterator it = l.begin();
    std::advance(it, N);
    // 'it' points to the element at index 'N'
}

For a container that doesn't provide random access, like std::list, std::advance calls operator++ on the iterator N times. Alternatively, if your Standard Library implementation provides it, you may call std::next:

if (l.size() > N)
{
    std::list<Object>::iterator it = std::next(l.begin(), N);
}

std::next is effectively wraps a call to std::advance, making it easier to advance an iterator N times with fewer lines of code and fewer mutable variables. std::next was added in C++11.

2
  • 22
    While you pay a performance penalty searching a linked list due to the lack of random access, you pay a much bigger performance penalty if you need to insert or remove data in the middle of a vector or deque. The question doesn't actually contain enough information to decide if they are using the ideal container for their purposes.
    – tloach
    Sep 18, 2015 at 14:21
  • 2
    It's worth noting that when using std::advance or std::next, it is easy to invoke UB. There is no bounds checking.
    – okovko
    Mar 25, 2019 at 23:37
40

std::list doesn't provide any function to get element given an index. You may try to get it by writing some code, which I wouldn't recommend, because that would be inefficient if you frequently need to do so.

What you need is : std::vector. Use it as:

std::vector<Object> objects;
objects.push_back(myObject);

Object const & x = objects[0];    //index isn't checked
Object const & y = objects.at(0); //index is checked 
9
std::list<Object> l; 
std::list<Object>::iterator ptr;
int i;

for( i = 0 , ptr = l.begin() ; i < N && ptr != l.end() ; i++ , ptr++ );

if( ptr == l.end() ) {
    // list too short  
} else {
    // 'ptr' points to N-th element of list
}
3

Maybe not the most efficient way. But you could convert the list into a vector.

#include <list>
#include <vector>

list<Object> myList;

vector<Object> myVector(myList.begin(), myList.end());

Then access the vector using the [x] operator.

auto x = MyVector[0];

You could put that in a helper function:

#include <memory>
#include <vector>
#include <list>

template<class T>
shared_ptr<vector<T>> 
ListToVector(list<T> List) {
shared_ptr<vector<T>> Vector {
        new vector<string>(List.begin(), List.end()) }
return Vector;
}

Then use the helper funciton like this:

auto MyVector = ListToVector(Object);
auto x = MyVector[0];
0

Not very efficient, but if you must use a list, you can deference the iterator

*myList.begin()+N
1
  • +N only works for random access iterators. Sep 30, 2022 at 18:20

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