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I have a data structure like this:

struct X {
  float value;
  int id;

a vector of those (size N (think 100000), sorted by value (stays constant during the execution of the program):

std::vector<X> values;

Now, I want to write a function

void subvector(std::vector<X> const& values, 
               std::vector<int> const& ids, 
               std::vector<X>& out /*, 
               helper data here */);

that fills the out parameter with a sorted subset of values, given by the passed ids (size M < N (about 0.8 times N)), fast (memory is not an issue, and this will be done repeatedly, so building lookuptables (the helper data from the function parameters) or something else that is done only once is entirely ok).

My solution so far:
Build lookuptable lut containing id -> offset in values (preparation, so constant runtime)
create std::vector<X> tmp, size N, filled with invalid ids (linear in N)
for each id, copy values[lut[id]] to tmp[lut[id]] (linear in M)
loop over tmp, copying items to out (linear in N)

this is linear in N (as it's bigger than M), but the temporary variable and repeated copying bugs me. Is there a way to do it quicker than this? Note that M will be close to N, so things that are O(M log N) are unfavourable.

Edit: http://ideone.com/xR8Vp is a sample implementation of mentioned algorithm, to make the desired output clear and prove that it's doable in linear time - the question is about the possibility of avoiding the temporary variable or speeding it up in some other way, something that is not linear is not faster :).

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And what is the purpose of that tmp? Where did it come from in the first place? Why aren't you building your output directly in out without any intermediate temporaries? –  AnT Nov 29 '10 at 23:05
Also, what you are trying to build is not well-described in your question. Initially, you seem to say that you need output of size M. Yet your algorithm attempts to build output of size N in all cases. So, what is it you are trying to get in out array after all is done? –  AnT Nov 29 '10 at 23:08
regarding "where does tmp come from" - i created it. regarding "why am i not building it in out directly" - i don't know where to place the element beforehand, i don't know the position in the subvector. and no, my output is size M, it's only linear in N because i test each element in tmp. and yes, the id values are unique. –  etarion Nov 29 '10 at 23:17
A second vector sorted by id and using equal_range, copy and finally sort by value should give you M log N complexity. –  msandiford Nov 29 '10 at 23:19
That's one thing i missed to mention - M will be pretty close to N, so this will be unfavourable (for very sparse ids, it would be favorable) –  etarion Nov 29 '10 at 23:22

3 Answers 3

up vote 1 down vote accepted

An alternative approach you could try is to use a hash table instead of a vector to look up ids in:

void subvector(std::vector<X> const& values, 
               std::unordered_set<int> const& ids, 
               std::vector<X>& out) {

    for(std::vector<X>::const_iterator i = values.begin(); i != values.end(); ++i) {
        if(ids.find(i->id) != ids.end()) {

This runs in linear time since unordered_set::find is constant expected time (assuming that we have no problems hashing ints). However I suspect it might not be as fast in practice as the approach you described initially using vectors.

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Thanks, this looks interesting. Will benchmark against the vector version. –  etarion Nov 30 '10 at 21:09

Since your vector is sorted, and you want a subset of it sorted the same way, I assume we can just slice out the chunk you want without rearranging it.

Why not just use find_if() twice. Once to find the start of the range you want and once to find the end of the range. This will give you the start and end iterators of the sub vector. Construct a new vector using those iterators. One of the vector constructor overloads takes two iterators.

That or the partition algorithm should work.

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Not sure this will work. If I read the question correctly, the OP has the array sorted by value and wants to select by id. –  msandiford Nov 29 '10 at 23:10
yes, and the ids are not continuous (and not neccessarily sorted). –  etarion Nov 29 '10 at 23:23

If I understood your problem correctly, you actually try to create a linear time sorting algorithm (subject to the input size of numbers M). That is NOT possible.

Your current approach is to have a sorted list of possible values. This takes linear time to the number of possible values N (theoretically, given that the map search takes O(1) time).

The best you could do, is to sort the values (you found from the map) with a quick sorting method (O(MlogM) f.e. quicksort, mergesort etc) for small values of M and maybe do that linear search for bigger values of M. For example, if N is 100000 and M is 100 it is much faster to just use a sorting algorithm.

I hope you can understand what I say. If you still have questions I will try to answer them :)

edit: (comment) I will further explain what I mean. Say you know that your numbers will range from 1 to 100. You have them sorted somewhere (actually they are "naturally" sorted) and you want to get a subset of them in sorted form. If it would be possible to do it faster than O(N) or O(MlogM), sorting algorithms would just use this method to sort.

F.e. by having the set of numbers {5,10,3,8,9,1,7}, knowing that they are a subset of the sorted set of numbers {1,2,3,4,5,6,7,8,9,10} you still can't sort them faster than O(N) (N = 10) or O(MlogM) (M = 7).

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No, i don't want to create a linear sorting time algorithm - i want to get values from an already sorted vector, so no sorting needs to be done. see ideone.com/SNHVq for a sample implementation of the algorithm i outlined in the OP. –  etarion Nov 30 '10 at 0:03

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