# Algorithm to get “adjacent” values of a list with subsets

I have a text file like this:

``````A
B
C
``````

And each element has a subset like this:

``````A = { a1, a2, a3 }
B = { b1, b2 }
C = { c1, c2, c3 }
``````

I want to generate this:

```    a1, b1, c1
a2, b1, c1
a3, b1, c1
a1, b2, c1
a1, b1, c2
a1, b1, c3
```

I don't know the number of elements in the text file (e.g. could be: A, B, C, D, E) and the subsets could vary in size.

All I can think it's a recursive function with 2 indexes, maybe "position in the array" and "index of the array", but I really don't know how to implement all of this.

I even tried to adapt a function that does cartesian product with the same inputs, but I totally failed. I don't need to generate Cartesian product.

-
What about a combination like `a1, b2, c2` - that is not something you want? –  cheeken Jun 15 '12 at 14:08
This doesn't seem like Cartesian product, since there are only 8 outputs? Or what you want to generate really is the Cartesian product? –  nhahtdh Jun 15 '12 at 14:10
I don't have to generate Cartesian product, just tried to adapt that function to my purpose (and I failed as I said). I want these: scan A array leaving the other arrays "unchanged" > when A is at the end, then "pass" at B array and do the same > when B is at the end, then "pass" at C array and do the same, etc... @cheeken Unfortunately I don't want a combination like this :( –  Pierpaolo Bagnasco Jun 15 '12 at 14:13
`a1, b3, c1` ?? I don't understand where b3 came from as it's not listed in your B subset –  KidTempo Jun 15 '12 at 14:16
Thanks for all the answers... But which solution should I choose? The one posted by John B seems more compact and cheaper in terms of resources... Am I wrong? –  Pierpaolo Bagnasco Jun 15 '12 at 15:15

``````List<List<Integer>> myInput = ...

for(int i=0; i<myInput.size(); i++){
for (int j=0; j<myInput.get(i).size(); j++){
if (j == 0 && i > 0){
continue;
}
List<Integer> result = new ArrayList<Integer>(myInput.size());
for(int k=0; k<myInput.size(); k++){
if (k == i){
}else{
}
}
System.out.println(result);
}
}
``````

Loop through all the lists where the index is the list to be iterated.

Find the size of the inner List to be iterated and loop that many time.

Loop through the lists always getting the first element unless the list is the list being indexed, in which case get the next value from the iteration list.

-
good catch. cheers –  John B Jun 15 '12 at 14:34
Shouldn't List<Integer> be List<String> ? –  KidTempo Jun 15 '12 at 15:29
Sure, doesn't really matter to show the algorithm. –  John B Jun 15 '12 at 15:31

This can be mapped to multi-stage graphs.Just googled for a diagrammatic illustration online of mult-stage graphs : What you are trying to do is print all the paths from the super-source 'S' to the super sink 'T'. You might want to read up on the same. This is also related to the Network Flow problem,if you are interested further.

-

Everyone is using Containers so I will try to solve it only with arrays.

In this algorithm I just print 1st line then I'm focusing on surrounding next elements of subsets by first elements of rest subsets

``````String[] lines = { "a1, a2, a3", "b1, b2", "c1, c2, c3" };

String[][] array = new String[lines.length][];
for (int i = 0; i < lines.length; i++)
array[i] = lines[i].replaceAll(" +", "").split(",");

//lets type 1st row to ignore it in rest algoritm
System.out.print(array[0][0]);
for (int i = 1; i < array.length; i++)
System.out.print(", " + array[i][0]);
System.out.println();

//in rest of algorithm we must surround each element by
//1st element or rest rows, so lets iterate over each row
for (int row = 0; row < array.length; row++)
//and surround its elements
for (int col = 1; col < array[row].length; col++) {
//left surround
int i=0;
for (; i<row; i++)
System.out.print(array[i][0]+", ");
//
System.out.print(array[row][col]);
//right surround
for (i=i+1; i<array.length; i++)
System.out.print(", "+array[i][0]);
System.out.println();
}
``````
-

``````public class SubsetPrinter
{
private static final String DELIMITER = ", ";
private static final String NEWLINE = System.getProperty("line.separator");

public static String printSubsets(Map<String, List<String>> elements)
{
List<String> lines = new ArrayList<String>();
for (Map.Entry<String, List<String>> entry : elements.entrySet())
{
for (String sub : entry.getValue())
{
String line = getLine(elements, entry.getKey(), sub);
if (!lines.contains(line))
{
}
}
}
return asString(lines);
}

private static String getLine(Map<String, List<String>> elements, String element, String sub)
{
StringBuilder line = null;
for (Map.Entry<String, List<String>> entry : elements.entrySet())
{
if (line == null)
{
line = new StringBuilder();
}
else
{
line.append(DELIMITER);
}
if (entry.getKey().equals(element))
{
line.append(sub);
}
else
{
line.append(entry.getValue().get(0)); // appends the first
}
}
return line.toString();
}

private static String asString(List<String> lines)
{
StringBuilder sb = null;
for (String line : lines)
{
if (sb == null)
{
sb = new StringBuilder();
}
else
{
sb.append(NEWLINE);
}
sb.append(line);
}
return sb.toString();
}
}
``````

And the test being:

``````private Map<String, List<String>> getDataSet1()
{
Map<String, List<String>> map = new HashMap<String, List<String>>();
List<String> subsetA = Arrays.asList( new String[] { "a1", "a2", "a3" } );
List<String> subsetB = Arrays.asList( new String[] { "b1", "b2" } );
List<String> subsetC = Arrays.asList( new String[] { "c1", "c2", "c3" } );
map.put("A", subsetA);
map.put("B", subsetB);
map.put("C", subsetC);
return map;
}

@Test
public void testPrintSubsets()
{
Map<String, List<String>> elements = getDataSet1();
String output = SubsetPrinter.printSubsets(elements);
System.out.println(output);
}
``````

Output:

``````a1, b1, c1
a2, b1, c1
a3, b1, c1
a1, b2, c1
a1, b1, c2
a1, b1, c3
``````
-

Build the "base list", which is comprised of the first element of every list. Then loop through all the elements of all of the lists. For each such element, update the base list at the appropriate position with that element, and add this updated list to a running tally of lists.

I've included an example implementation below.

``````import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;

public static <T> List<List<T>> generateAdjacentLists(List<List<T>> lists) {
List<List<T>> result = new ArrayList<List<T>>();
List<T> baseList = new ArrayList<T>();

// Generate the base list, which is comprised of all the first elements
for (List<T> list : lists) {
}

// Loop over each list, and for each element beyond the first, make a
// copy of the base list, update that element in place, and add it to
// our result
for (int list_i = 0; list_i < lists.size(); list_i++) {
List<T> list = lists.get(list_i);
for (int listElement_i = 1; listElement_i < list.size(); listElement_i++) {
List<T> updatedList = new ArrayList<T>(baseList);
updatedList.set(list_i, list.get(listElement_i));
}
}

return result;
}

public static void main(String... args) {
List<String> a = Arrays.asList(new String[] { "a1", "a2", "a3" });
List<String> b = Arrays.asList(new String[] { "b1", "b2" });
List<String> c = Arrays.asList(new String[] { "c1", "c2", "c3" });
List<List<String>> lists = new ArrayList<List<String>>();
System.out.println(list);
}
}
}
``````

Output

``````[a1, b1, c1]
[a2, b1, c1]
[a3, b1, c1]
[a1, b2, c1]
[a1, b1, c2]
[a1, b1, c3]
``````
-
+1 nice solution –  John B Jun 15 '12 at 14:36