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In my project I have a vector wit some relational data (a struct that holds two similar objects which represent a relationship between them) and I need to check for relationships combinations between all data in the vector.

What I am doing is iterating over the vector and inside the first for loop I am iterating again to look for relationships between data.

This is a simplified model of what I am doing

for(a=0; a<vec.size(); a++)
{
    for(b=0; b<vec.size(); b++)
    {
        if(vec[a].something==vec[b].something) {...}
    }
}

My collection has 2800 elements which means that I will be iterating 2800*2800 times...

What kind of data structure is more suitable for this kind of operation? Would using for_each be any faster then traversing the vector like this?

Thanks in advance!


vec has two structs which are made up of two integers and nothing is ordered.

share|improve this question
    
Perhaps use a multimap that maps values to indexes or iterators. – Luchian Grigore Jul 25 '13 at 18:28
6  
Vector is pretty much the best for this, what you need is an algo that isn't n^2 – aaronman Jul 25 '13 at 18:28
3  
sorted vector then use 1st b = a + 1 in inner loop – Grijesh Chauhan Jul 25 '13 at 18:28
    
What kind of elements? Numbers? Strings? Or something more complex? If the items are somehow sortable, check out the quick select algorithm. – Captain Skyhawk Jul 25 '13 at 18:29
    
Do you have any kind of order for your elements? – Andreas Florath Jul 25 '13 at 18:32
up vote 4 down vote accepted

no, for_each still does the same thing.

Using a hash map could make your problem better. Start with an empty hash and iterate through the list. For each element, see if it's in the hash. If it's not, add it. If it is, then you have a duplicate and you run your code.

In C++, you can use std::map. In C, there is no built in map datastructure, so you'd have to make your own.

The high-level pseudo code would look something like this

foreach (element in array)
  if map.has_key(element)
    do_stuff(element)
  else
    map.add_key(element)
share|improve this answer
    
I don't think we can consider this a useful answer because we can't give one without knowing more about his problem – aaronman Jul 25 '13 at 18:31
    
As long as they key is the "relationship", I think it can work. Perhaps not quite as simply, but pretty sure it's still a valid approach – xaxxon Jul 25 '13 at 18:32
    
it's definitely possible that a map or unordered_map is a good solution but we know nothing about the problem, we don't even know what data type is in the vector for godsakes – aaronman Jul 25 '13 at 18:35
    
+1 now your answer makes sense since he actually has some real info on his problem – aaronman Jul 25 '13 at 18:50

The easiest way to improve the efficiency of this operation would be to sort the vector and then look for duplicates. If sorting the vector isn't an option, you could create another vector of pointers to the elements of this vector and sort that. Both of those will take you from an N**2 complexity to an N*log(N) complexity (assuming, of course, that you use an N*log(N) sort). This does mean using more space, but often using a bit of space for significant time improvements is very reasonable.

share|improve this answer

assuming your vector contains a "relation" structure like:

class Entity;

struct Relation {
  Entity* something;
  Entity* relative;
};

and you have a vector of "relations":

std::vector<Relation> ties;

So if I understood it correctly, you want to segment ties and have a list of Relations for each Entity. This may be represented by a map:

std::map<Entity*,std::vector<Relation*>> entityTiesIndex;

Then you could just scan once through all ties and collect the relations for each entity:

for (int i=0; i < ties.size(); ++i ) {
  Relation* relation = &ties[i];
  entityTiesIndex[relation->something].push_back(relation);
}

Mind here the usual disclaimer about references to container elements, as these may change when container is altered.

Hope this makes sense.

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