# Johnson Trotter Algorithm

Overview:

I am trying to implement the Johnson Trotter Algorithm in Java so that I can solve a problem on Project Euler. I have looked and looked but as far as I can see I have everything implemented right, which you know is wrong, otherwise I wouldn't be asking this question :)

The basic algorithm goes like this:

``````Johnson Trotter(n)
//Input: A positive integer n
//Output: A list of all permutations(0..n)

initialize the first permutation with: <0, <1, <2
//(all elements pointing left)

while ( //there exists a mobile element )
//find the largest mobile element K
//swap K with the element it points toward
//reverse the direction of all elements > K
//add the permutation to a list
``````

I have created an `Element` object that has attributes `(value, isMobile, Direction)` to use for this algorithm. When I am swapping values, only one swap occurs, then after that the original order is printed over and over.

Code:

``````      public void generatePermutations(int n)
{
ArrayList<String> permutations = new ArrayList<String>();
ArrayList<Element> elements    = new ArrayList<Element>();

//Initialize the first permutation,
//all Elements are mobile and point LEFT
for(int i = 0; i < n; i++)
{
}

//add initial permutation to the list

while(hasMobileElement(elements))
{
//find the largest mobile element
int maxIndex  = getLargestMobileIndex(elements);
Element k     = elements.get(maxIndex);

//Swap the largest Element with the Element it points to
if(k.getDirection() == Direction.LEFT)
{
//get the index of the element to the left of k
int leftIndex = (maxIndex - 1) >= 0 ? (maxIndex - 1) : maxIndex;

Collections.swap(elements, maxIndex, leftIndex);
}
else
{
//get the index of the element to the right of k
int rightIndex =
(maxIndex + 1) < elements.size() ? (maxIndex + 1) : maxIndex;

Collections.swap(elements, maxIndex, rightIndex);
}

//reverse the direction of all elements larger than K
for(Element e : elements)
{
//System.out.println(e);
if(e.getValue() > k.getValue())
{
Direction opposite = Direction.opposite(e.getDirection());
e.setDirection(opposite);
}
}

//add the new permutation to the list

if(STOP++ == 10) System.exit(0);
}
}

//converts all the values of the Element
//objects then adds them to a String
public String combineElementsToString(ArrayList<Element> elements)
{
String perm = "";

for(Element e : elements)
{
perm += Integer.toString(e.getValue());
}

return perm;
}

//finds largest Mobile element and returns it's index
public int getLargestMobileIndex(ArrayList<Element> elements)
{
int maxIndex = 0;

for(int i = 0; i < elements.size(); i++)
{
if(elements.get(i).isMobile() && i > maxIndex)
{
maxIndex = i;
}
}

return maxIndex;
}

//determines if there is a remaining mobile element
public boolean hasMobileElement(ArrayList<Element> elements)
{
for(Element e : elements)
{
if(e.isMobile())
return true;
}

return false;
}
``````

Expectations: I would expect the algorithm to do something like this

Start:

``````<0 <1 <2
<0 <2 <1
<2 <0 <1
``````

etc

Actual

This is what it actually does

Start:

``````<0 <1 <2
<0 <2 <1
<0 <2 <1
<0 <2 <1
``````

it doesnt change after the first swap

Any help would be awesome, also if you have comments/pointers about my style those would also be much appreciated, Thanks.

Sorry for long post.

-

Although you are not posting the complete code here (how you decide if an element is mobile or immobile would be helpful), I suspect your error comes from here:

`````` public int getLargestMobileIndex(ArrayList<Element> elements)
{
int maxIndex = 0;

for(int i = 0; i < elements.size(); i++)
{
if(elements.get(i).isMobile() && i > maxIndex) //<---------- It seems that
// you should compare the i-th element to the maxIndex-th element, not i and
// maxIndex
{
maxIndex = i;
}
}

return maxIndex;
}
``````

Since the algorithm said `find the largest mobile element K`.

Also, I suspect there are problems for your `isMobile` method, but cannot be sure.

Hope this helps!

-
Thanks! That was definitely a problem I didnt see. Now the largest element swaps all the way over to the left, then nothing else happens. Regardless thanks. – Hunter McMillen Jul 29 '11 at 19:02
@Hunter I suspect maybe your isMobile is problematic. Are you sure it is not: 1) checking only leftward mobile elements 2)treating the largest element as mobile if it is at the leftmost of the list? – Ziyao Wei Jul 29 '11 at 19:07
You are right again. I was still considering 2 the largest regardless of position. Thanks – Hunter McMillen Jul 29 '11 at 19:10
@Hunter I shall thank you too, for the cute algorithm that I don't know before:) – Ziyao Wei Jul 29 '11 at 19:14

I looked at the suggested link with Even's speedup and think it is unnecessarily inefficient, using compares. My understanding is that Even's speedup means you don't need compares.

Here's my code; this iterative form (unlike the recursive solution) allows you to call a getNext iterator to generate and return the next permutation.

``````// Johnson-Trotter algorithm (http://en.wikipedia.org/wiki/Steinhaus%E2%80%93Johnson%E2%80%93Trotter_algorithm)
public class Permuter {
private int[] perms;
private int[] indexPerms;
private int[] directions;
private int[] iSwap;
private int N; //permute 0..N-1
private int movingPerm=N;

static int FORWARD=+1;
static int BACKWARD=-1;

Permuter(int N) {
this.N = N;
perms =  new int[N];     // permutations
indexPerms = new int[N];     // index to where each permutation value 0..N-1 is
directions = new int[N];     // direction = forward(+1) or backward (-1)
iSwap = new int[N]; //number of swaps we make for each integer at each level
for (int i = 0; i < N; i++) {
directions[i] = BACKWARD;
perms[i]  = i;
indexPerms[i] = i;
iSwap[i] = i;
}
movingPerm = N;
}

int[] getNext() {
//each call returns the next permutation
do{
if (movingPerm == N) {
movingPerm--;
return perms;
} else if (iSwap[movingPerm] > 0) {
//swap
int swapPerm = perms[indexPerms[movingPerm] + directions[movingPerm]];
perms[indexPerms[movingPerm]] = swapPerm;
perms[indexPerms[movingPerm] + directions[movingPerm]] = movingPerm;
indexPerms[swapPerm] = indexPerms[movingPerm];
indexPerms[movingPerm] = indexPerms[movingPerm] + directions[movingPerm];
iSwap[movingPerm]--;
movingPerm=N;
} else {
iSwap[movingPerm] = movingPerm;
directions[movingPerm] = -directions[movingPerm];
movingPerm--;
}
} while (movingPerm > 0);
return null;
}
``````
-

You can even download the complete java source code for this, with Even's speedup from here

-

Here is the java code for Johson Trotter Algorithm

public class PermutationGenerator {

``````public void generatePermute(int N)
{
ModifiedInteger[] permute=new ModifiedInteger[N];
int noOfPermutation=0;
for(int i=0;i<N;i++){
permute[i]=new ModifiedInteger(i,i+1,true);
}
System.out.print(++noOfPermutation+" ");
for(ModifiedInteger element:permute){
System.out.print(element.value+",");
}
System.out.println();
ModifiedInteger mobile;
while((mobile=largestMobile(permute))!=null)
{
//System.out.println("Largest Mobile is val- "+mobile.value+" index is "+mobile.index);
swap(mobile,permute);
//System.out.println("After Swap Largest Mobile is val- "+mobile.value+" index is "+mobile.index);
reverse(permute,mobile);
System.out.print(++noOfPermutation+" ");
for(ModifiedInteger element:permute){
System.out.print(element.value+",");
}
System.out.println();
}

}
public void reverse(ModifiedInteger[] sequence,ModifiedInteger largestMobile){
for(ModifiedInteger element:sequence){
if(element.value>largestMobile.value){
element.direction=!element.direction;

}

}
}
public void swap(ModifiedInteger largestMobileInteger,ModifiedInteger[] sequence)
{
ModifiedInteger temp=largestMobileInteger;
if(largestMobileInteger.direction){
sequence[largestMobileInteger.index]=sequence[largestMobileInteger.index-1];
sequence[largestMobileInteger.index-1]=temp;
sequence[largestMobileInteger.index].index+=1;
largestMobileInteger.index-=1;
}
else{
sequence[largestMobileInteger.index]=sequence[largestMobileInteger.index+1];

sequence[largestMobileInteger.index+1]=temp;
sequence[largestMobileInteger.index].index-=1;
largestMobileInteger.index+=1;
}

}
public ModifiedInteger largestMobile(ModifiedInteger[] sequence){
ModifiedInteger largestMobile=null;
int count=0;
for(ModifiedInteger element:sequence){
if(element.direction&&count!=0&&element.value>sequence[count-1].value)
{
if(largestMobile==null){
largestMobile=element;
}
else if(largestMobile.value<element.value){
largestMobile=element;
}

}
else if(!element.direction&&count<sequence.length-1&&element.value>sequence[count+1].value)
{
if(largestMobile==null){
largestMobile=element;
}
else if(largestMobile.value<element.value){
largestMobile=element;
}

}
count++;
}

return largestMobile;

}
//boolean direction-left-true;right-false
public class ModifiedInteger
{
int value;
int index;
private boolean direction;
ModifiedInteger(int index,int value,boolean direction){
this.index=index;
this.value=value;
this.direction=direction;
}
public boolean getDirection() {
return direction;
}
public void setDirection(boolean direction) {
this.direction = direction;
}
}
public static void main(String args[]){

PermutationGenerator obj=new PermutationGenerator();
obj.generatePermute(5);
}
``````

}

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