# Set merger algorithm with C++

Suppose now you have a group of data:

Data 1: (1, 2);
Data 2: (1, 3);
Data 3: (7, 8);
Data 4: (8, 20);

Now the task is to merge the data set if it has a common element with another data set. In our example, Data 1 will be merged with Data 2 as they share the common number 1. So will Data 3 and Data 4. My question is how can we implement this function in C++ in a very efficient. For the time being my implementation is based on std::vector > data structure, which is illustrated in the following codes:

#include <iostream>
#include <map>
#include <set>
#include <algorithm>
#include <vector>

using namespace std;
bool find_the_element(const set<int> &mysets, const vector<int> &myvector)
{
for(int i=0; i<myvector.size(); i++)
{
set<int>::iterator it;
it = mysets.find(myvector[i]);
if (it != mysets.end())
return true;
}
return false;

}

int main ()
{

set<vector<int> > myset;
vector<int> a;
a.push_back(1);
a.push_back(2);

vector<int> b;
b.push_back(1);
b.push_back(3);

vector<int> c;
c.push_back(7);
c.push_back(8);

vector<int> d;
d.push_back(8);
d.push_back(20);
vector<vector<int> > my_vector_array;
my_vector_array.push_back(a);
my_vector_array.push_back(b);
my_vector_array.push_back(c);
my_vector_array.push_back(d);

vector<set<int> > my_sets;
for(int i=0; i<my_vector_array.size(); i++)
{
vector<int> temp_vector = my_vector_array[i];

if (my_sets.empty())
{
set<int> temp_set;
for(int j=0; j<temp_vector.size(); j++)
temp_set.insert(temp_vector[j]);

my_sets.push_back(temp_set);
}
else
{
bool b_find = false;
for(int j=0; j<my_sets.size(); j++)
{
set<int>temp_set;
temp_set = my_sets[j];
if (find_the_element(temp_set,temp_vector))
{
b_find = true;
my_sets[j].insert(temp_vector.begin(), temp_vector.end());

break;
}

}
if (b_find)
{
}
else
{
set<int> temp_set;
for(int j=0; j<temp_vector.size(); j++)
temp_set.insert(temp_vector[j]);

my_sets.push_back(temp_set);
}

}
}
}

I was wondering whether there are more effective data structure in C++ or efficient algorithms to do the job. Thanks!

-
Depends. If you have all the data in advance, then concatenate the vectors together, then std::sort followed by std::unique. Otherwise the std::set solution is fine. – avakar Oct 3 '12 at 14:04
@avakar Thanks! This is one alternative. – feelfree Oct 3 '12 at 14:07
Your code will get different answers based on what order you process your vectors. Is that intentional? – Vaughn Cato Oct 3 '12 at 14:13
@VaughnCato in the example, I am only interested in obtaining the separated two data sets: Group 1 (Data 1, Data 2) and Group 2 （Data 3, Data 4). Could you give examples where the formulated groups are different if the orders of the vectors are changed? It does not matter which one is Group 1. – feelfree Oct 3 '12 at 14:21
@feelfree, no sorry, it's not, I misread the question. dasblinkenlight has the correct answer. – avakar Oct 3 '12 at 14:23