# Calculating Word Proximity in an inverted Index

As part of search engine i have developed an inverted index.

So i have a list which contains elements of the following type

``````public struct ForwardBarrelRecord
{
public string DocId;
public int hits { get; set; }
public List<int> hitLocation;
}
``````

Now this record is against a single word. The hitLocation contains the locations where a particular word has been found in a document.

Now what i want is to calculate the closeness of elements in `List<int> hitLocation` to another `List<int> hitLocation` and then if the elements in the List are adjacent then to increase the weight of both records.

Problem that i am having is finding a suitable algorithm for this purpose. Any Help is appreciated

-
You already have lists of hit locations, what if you view them a discrete functions - you can convert each hit into a range (centered around each index and descending to the sides, with overall width depending on how close you want the words to be). Then you're basically down to a dot-product between each two "lists" to get a proximity score –  Leeor Sep 25 '13 at 21:29
I think this is something i require. Although this being a concise comment eludes the complete answer i need, i would really appreciate some general pointers for further acquisition of knowledge :) –  Win Coder Sep 26 '13 at 16:32
Well, for what it's worth - I wrote a more detailed explanation in here - stackoverflow.com/questions/19034271/… –  Leeor Sep 26 '13 at 19:01

This is easiest if the `hitLocation` lists are in sorted order. So start with:

``````var word1List = word1.hitLocation.Orderby(s => s).ToList();
var word2List = word2.hitLocation.Orderby(s => s).ToList();
``````

Although if you're doing this for a search engine then you'll probably want those lists to be pre-sorted in your inverted index.

In any case, once you have the lists sorted, finding matches is pretty easy.

``````int ix1 = 0;
int ix2 = 0;
while (ix1 < word1List.Count && ix2 < word2List.Count)
{
int hit1 = word1List[ix1];
int hit2 = word2List[ix2];
if (hit1 < hit2)
{
if ((hit2 - hit1) == 1)
{
Console.WriteLine("Match at {0} and {1}", hit1, hit2);
}
ix1++;
}
else
{
ix2++;
}
}
``````

That will locate occurrences of word1 followed by word2. If you also want word2 followed by word1, you could put a similar check in the `else` clause.

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Even though i was looking for weights this seems like a good starting point. Thanks. –  Win Coder Sep 26 '13 at 16:22
``````#include <iostream>
#include <list>
#include <string>
using namespace std;

struct ForwardBarrelRecord
{
string DocId;
int hits;
list<int> hitLocation;
};

void merge(struct ForwardBarrelRecord& fa, struct ForwardBarrelRecord& fb)
{
list<int>& la = fa.hitLocation;
list<int>& lb = fb.hitLocation;
la.sort();
lb.sort();
std::list<int>::iterator ita = la.begin();
std::list<int>::iterator itb = lb.begin();
while(ita != la.end() && itb != lb.end())
{
int loc_a = *ita;
int loc_b = *itb;
if (loc_a < loc_b)
{
if (loc_a + 1 == loc_b)
{
cout << "adjacent pair (" << loc_a << ", " << loc_b << ")" << endl;
}
ita++;
}
else if (loc_a > loc_b)
{
if (loc_b + 1 == loc_a)
{
cout << "adjacent pair (" << loc_a << ", " << loc_b << ")" << endl;
}
itb++;
}
else
{
ita++;
itb++;
if (ita != la.end() && *ita == loc_b + 1)
{
cout << "adjacent pair (" << *ita << ", " << loc_b << ")" << endl;
}
if (itb != lb.end() && *itb == loc_a + 1)
{
cout << "adjacent pair (" << loc_a << ", " << *itb << ")" << endl;
}
}
}
}

int main() {
struct ForwardBarrelRecord fa;
fa.hitLocation.push_back(1);
fa.hitLocation.push_back(2);
fa.hitLocation.push_back(3);
struct ForwardBarrelRecord fb;
fb.hitLocation.push_back(2);
fb.hitLocation.push_back(3);
merge(fa, fb);
return 0;
}
``````

please refer to the code to output all adjacent hit locations in a merge-scan of 2 sorted lists.

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Could you please explain your answer a bit more detailed? –  Robin Ellerkmann Mar 6 at 11:28