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In his "Effective STL" Scott Meyers wrote

A third is to use the information in an ordered container of iterators to iteratively splice the list's elements into the positions you'd like them to be in. As you can see, there are lots of options. (Item 31, second part)

Can someone explain me this way?

More text (to understand the context):

The algorithms sort, stable_sort, partial_sort, and nth_element require random access iterators, so they may be applied only to vectors, strings, deques, and arrays. It makes no sense to sort elements in standard associative containers, because such containers use their comparison functions to remain sorted at all times. The only container where we might like to use sort, stable_sort, partial_sort, or nth_element, but can't, is list, and list compensates somewhat by offering its sort member function. (Interestingly, list::sort performs a stable sort.) If you want to sort a list, then, you can, but if you want to use partial_sort, or nth_element on the objects in a list, you have to do it indirectly. One indirect approach is to copy the elements into a container with random access iterators, then apply the desired algorithm to that. Another is to create a container of list::iterators, use the algorithm on that container, then access the list elements via the iterators. A third is to use the information in an ordered container of iterators to iteratively splice the list's elements into the positions you'd like them to be in. As you can see, there are lots of options.

share|improve this question
Am I the only one realizing that this would have terrible cache behavior ? A list is already generally not recommend because of it is node based (ie, elements are scattered to the wind), and here we introduce another node based container to refer to the list items (via a pointer-like object). Pfiuuu. – Matthieu M. Feb 10 '12 at 7:15
@MatthieuM. "list elements are scattered to the wind". To avoid lots of memory cashing and associated page faults you may use placement new form to create list nodes in continuous memory block. – DaddyM Feb 10 '12 at 10:14
@MatthieuM. What do we introduce. Clarify – DaddyM Feb 10 '12 at 10:14
you introduce an ordered container of iterators seem to make people lean toward a set which is itself node based. – Matthieu M. Feb 10 '12 at 10:34
@MatthieuM. got your idea, thanks. +1 Is set always node-based (on all widely used implementations)?? – DaddyM Feb 10 '12 at 10:46
up vote 3 down vote accepted

I'm not sure what the confusion is but I suspect that it is what "splicing" refers to: the std::list<T> has an splice() member function (well, actually several overloads) which transfer nodes between lists. That is, you create a std::vector<std::list<T>::const_iterator> and apply the sorting algorithm (e.g. std::partial_sort()) to this. Then you create a new std::list<T> and use the splice() member with the iterators from the sorted vector to put the nodes into their correct order without moving the objects themselves.

This would look something like this:

std::vector<std::list<T>::const_iterator> tmp;
for (auto it(list.begin()), end(list.end()); it != end; ++it) {
std::list<T> result;
for (auto it(tmp.begin()), end(tmp.end()); it != end; ++it) {
    result.splice(result.end(), list, it);
share|improve this answer
Thanks! Finally someone using a sane structure for sorting (eg, a vector instead of a set...). At least here we have an efficient memory allocation pattern (and could even use reserve) even though the memory access is still likely to be chaotic. – Matthieu M. Feb 10 '12 at 10:39
@Dietmar very nice answer. – DaddyM Feb 10 '12 at 11:30
I wonder if std::vector is an "ordered container". – user677656 Feb 17 '12 at 2:24

Let's say you wanted to do a partial_sort on a list. You could store the iterators to the list in a set, by providing a comparison function that can sort using the iterators, like this:

struct iterator_less
    bool operator() (std::list<int>::iterator lhs,
                 std::list<int>::iterator rhs) const
        return (*lhs < *rhs);
typedef std::multiset<
    std::list<int>::iterator, iterator_less
> iterator_set;

The you could let set perform the sort, but since it contains iterators to list, you could you list::splice to splice them into a partial_sorted list:

std::list<int> unsorted, partialSorted;

    // First copy the iterators into the set
iterator_set itSet;
for( auto it = unsorted.begin(); it!=unsorted.end();++it)
    // now if you want a partial_sort with the first 3 elements, iterate through the
    // set grabbing the first item in the set and then removing it.
int count = 3;
    iterator_set::iterator setTop = itSet.begin();

share|improve this answer
+1, this is the correct implementation of what Scott Meyers had in mind. However, you might want to choose cleaner names, everything stats with li. My eyes hurt after reading this. – André Caron Feb 10 '12 at 2:35
Here's a cleaned-up version which avoids using a second list (items are spliced directly from one position in the list to another). Feel free to use (or not use). – André Caron Feb 10 '12 at 3:17
@AndréCaron Thank you +1 – DaddyM Feb 10 '12 at 11:46
@zdan thanks, very good answer. It is simply to understand but Dietmar's implementation is more effective, so I've chosen his answer. – DaddyM Feb 10 '12 at 12:14
@DaddyM Yup Dietmer's solution is cleaner, but it doesn't use a "sorted container". – zdan Feb 10 '12 at 17:47

An ordered container would be either std::set or std::map. If you're willing to make a comparator that takes iterators you would use std::set<std::list<mydata>::iterator,comparator>, otherwise you could use std::map<mydata,std::list<mydata>::iterator>. You go through your list from begin() to end() and insert the iterators into the set or map; now you can use it to access the items in the list in sorted order by iterating the set or map, because it's automatically sorted.

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Note that using std::set<> will remove duplicates in the original list. You're better off with std::multiset<>. – André Caron Feb 10 '12 at 2:34

Ordered containers are std::set and std::multiset. std::set implements a BST. So what it says is that you should crate an std::set<std::list::iterators> and then use the inherent BST structure to do the sorting. Here is a link on BST to get you started.

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thanks. concise and clear – DaddyM Feb 10 '12 at 11:45

Edit Ah. Just noticed "ordered container of iterators". That would imply creating an index into another container.

Boost Multi Index has many example of such things (where a single collections is indexed by several different ordering predicates and the indices are nothing more than collections of 'pointers' (usually iterators) into the base container.

"A third is to use the information in an ordered container of iterators to iteratively splice the list's elements into the positions you'd like them to be in"

One thing I think would match that description is when doing std::sort_heap of a list/vector which has had std::make_heap/push_heap/pop_heap operating on it.

  • make_heap : convert a sequence to a heap
  • sort_heap : sort a heap
  • push_heap : insert an element in a heap
  • pop_heap : remove the top element from a heap

Heaps are organizations of elements within sequences, which make it (relatively) efficient to keep the collection in a known ordering under insert/removal. The order is implicit (like a recursive defined binary tree stored in a contiguous array) and can be transformed into the corresponding properly sorted sequence by doing the (highly efficient) sort_heap algorithm on it.

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Boost Multi Index [...] indices are nothing more than collections of 'pointers' This is not correct, the internal implementation is more efficient than that. See for instance this explanation on the internal structure of multi_index_containers. – Joaquín M López Muñoz Feb 10 '12 at 6:59

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