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Is there a way to perform a partial sort on an array of data so that the last n elements are sorted? By good I mean using the standard library, not implementing my own sort function (this is what I'm doing right now). Example output (using less comparator):

2 1 4 || 5 6 8 10

Elements after || are all greater than elements than elements before ||, but only elements to the right of || (indices closer to the end of the array) are guaranteed to be sorted.

This is basically a reversal of the std::partial_sort function which sorts the left (first) elements.

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2 Answers 2

up vote 10 down vote accepted

Use std::partial_sort with reverse iterators.

For example:

int x[20];
std::iota(std::begin(x), std::end(x), 0);
std::random_shuffle(std::begin(x), std::end(x));

std::reverse_iterator<int*> b(std::end(x)),
std::partial_sort(b, b+10, e, std::greater<int>());
for (auto i : x)
    std::cout << i << ' ';
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I think it needs a different comperator as well, so add std::greater to the mix. – Sjoerd Jan 15 '13 at 23:08

Another possibility instead of partial_sort with reverse iterators and std::greater for the comparison would be to use std::nth_element to partition the collection, then std::sort to sort the partition you care about:

std::vector<int> data{5, 2, 1, 6, 4, 8, 10}; //  your data, shuffled

std::nth_element(data.begin(), data.begin()+2, data.end());

std::sort(data.begin()+2, data.end();
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out of curiosity, are there any reasons/cases I would considering using this solution instead of reverse iterators? – helloworld922 Jan 16 '13 at 2:37
@helloworld922: I can see two. The first is that (at least to me) it simply seems a lot more readable. The second is that in most cases we can expect it to be more efficient. With N = overall size and M = size to sort, partial_sort has complexity ~O(N log M), where this has complexity ~O(N + M log M). – Jerry Coffin Jan 16 '13 at 2:49
hmm, interesting. Funny that they wouldn't implement partial sort internally like this if it's potentially faster. – helloworld922 Jan 16 '13 at 3:07
@helloworld922: They could, of course -- I'm only quoting what the standard requires them to do. – Jerry Coffin Jan 16 '13 at 3:28
I'm not sure you can say that in most cases we can expect it to be more efficient. You have to consider what are the common use cases of a partial sort. Based on no data, just intuition, I would have to guess that the primary use case for partial sort is when you have a large amount of data N, but you want to find the top M items, where M is much smaller than N. Because as M approaches N, you get to the point where you might as well just do a full sort. And in those cases, from my tests, partial_sort beats nth_element+sort, standard complexity guarantees be damned. – Benjamin Lindley Jan 16 '13 at 4:11

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