# minimum of jumps required to reach end of array - get index positions

The problem is get the `minimum jumps` and the corresponding indices in the array that lead to end of `array` with lesser jumps. for ex: `{3,2,3,1,5,4}` would take `2 jump`s.

``````Jump 1 from index 0 to index 2
jump 2 from index 2 to index 5
``````

By Jump, I mean hopping; i.e how many hops are needed. if you are a particular index, you get to hop by the value in that index.

Here is my implementation in `Java`, which gives the minimum number of jumps correctly, but I am having difficulty updating the `list` that I have with `indices` corresponding to the hop positions. how can I get it to working?

``````public static int minJumps2(int[] arr, List<Integer> jumps){
int minsteps=0;
boolean reachedEnd=false;
if (arr.length<2)
return 0;
int farthest=0;
for (int i=0;i<=farthest;i++){
farthest=Math.max(farthest, arr[i]+i);
if (farthest>=arr.length-1){
reachedEnd=true;
break;
}
minsteps++;

}
if (!reachedEnd){
System.out.println("unreachable");
return -1;
}
System.out.println(minsteps);
System.out.println(jumps);
return minsteps;
}

public static void main(String[] args){

int[] arr= {3,2,3,1,5};
List<Integer> jumps=new ArrayList<Integer>();
minJumps2(arr,jumps);

}
``````

EDIT: This is the Jump game algorithm as described here.

-
Please clear your question. What is a jump? Why cant you jump from index 0 to the end in one jump. –  B.J. Smegma Feb 21 at 0:12
I have edited the question, if that helps –  brain storm Feb 21 at 1:31

Though I did not understand your question clearly, but it seems that you need to add the index to `jumps` when you increment the `minsteps++`.

You need to un comment `jumps.add(farthest);` and pass the `i` instead of `farthest`. Also you may need to remove the `jumps.add(i)` with in if condition. Hope this helps.

EDIT: It seems your logic is fine except for the first jump which is at index `0` always. So add `0` to your `jumps` just before your loop.

UPDATE Okay, I was not tested and also not gone through the algorithm link you provided. The algo explains that we need to consider an element `e` and index `i` and get the `max` of the elements from current position to `arr[e]` and that is not happening. I tried to replicate the exact step the solution mentioned. Hope this might help you.

``````public static int minJumps2(int[] arr, List<Integer> jumps) {
boolean reachedEnd = false;
if (arr.length < 2)
return 0;

//calculate (index + value)
int[] sums = new int[arr.length];
for (int i = 0; i < arr.length; i++) {
sums[i] = i + arr[i];
}

while (true) {
int currentPosition = jumps.get(jumps.size() - 1);
int jumpValue = arr[currentPosition];

if (arr.length - 1 - currentPosition <= jumpValue) {
reachedEnd = true;
break;
} else {
int maxIndex = currentPosition;
int currentMax = sums[maxIndex];
// max of the reachable elements
for (int i = currentPosition; i <= currentPosition + jumpValue; i++) {
if (sums[i] > currentMax) {
maxIndex = i;
currentMax = sums[i];
}
}
if (maxIndex == currentPosition) {
break;
}

}
}
System.out.println(jumps.size());
System.out.println(jumps);
return jumps.size();
}
``````
-
I have edited the question, but your suggestion did not work –  brain storm Feb 21 at 1:32
Check the edited answer. –  Rp- Feb 21 at 2:07
Down voters could you provide an explanation? –  Rp- Feb 21 at 18:13
I am not the downvoter, but this one does not work. did you test it? and `system.out.println(jumps)`will print the actual contents, since it is a list and not array. –  brain storm Feb 21 at 19:00
Okay, I am kind overlooked and over exited. Please try the Updated answer. –  Rp- Feb 21 at 19:59

I see you already accepted an answer, but I have code that does what you need:

-It prints out the paths of min jumps (not just one, but all).

-It will also tell you if end of array is unreachable.

It uses DP, complexity = O(nk), where n is length of array, and k is numerical value of largest element in array.

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

public class MinHops {

private static class Node {
int minHops;
int value;
List<Node> predecessors = new ArrayList<>();

Node(int distanceFromStart, int value) {
this.minHops = distanceFromStart;
this.value = value;
}
}

public static void allMinHopsToEnd(int[] arr) {
Node[] store = new Node[arr.length];
store[0] = new Node(0, arr[0]);
for (int i = 1; i < arr.length; i++) {
store[i] = new Node(Integer.MAX_VALUE, arr[i]);
}

for (int index = 0; index < arr.length; index++) {
try {
updateHopsInRange(arr, store, index);
} catch (RuntimeException r) {
System.out.println("End of array is unreachable");
return;
}
}

Node end = store[store.length-1];
List<ArrayList<Integer>> paths = pathsTo(end);
System.out.println("min jumps for: " + Arrays.toString(arr));
for (ArrayList<Integer> path : paths) {
System.out.println(path.toString());
}

System.out.println();
}

private static void updateHopsInRange(int[] arr, Node[] store, int currentIndex) {
if (store[currentIndex].minHops == Integer.MAX_VALUE) {
throw new RuntimeException("unreachable node");
}

int range = arr[currentIndex];
for (int i = currentIndex + 1; i <= (currentIndex + range); i++) {
if (i == arr.length) return;
int currentHops = store[i].minHops;
int hopsViaNewNode = store[currentIndex].minHops + 1;

if (hopsViaNewNode < currentHops) { //strictly better path
store[i].minHops = hopsViaNewNode;
store[i].predecessors.clear();
} else if (hopsViaNewNode == currentHops) { //equivalently good path
}
}
}

private static List<ArrayList<Integer>> pathsTo(Node node) {
List<ArrayList<Integer>> paths = new ArrayList<>();
if (node.predecessors.size() == 0) {
}

for (Node pred : node.predecessors) {
List<ArrayList<Integer>> pathsToPred = pathsTo(pred);
for (ArrayList<Integer> path : pathsToPred) {
}

}

return paths;
}

public static void main(String[] args) {
int[] arr = {4, 0, 0, 3, 6, 5, 4, 7, 1, 0, 1, 2};
int[] arr1 = {1, 3, 5, 8, 9, 2, 6, 7, 6, 8, 9};
int[] arr2 = {2, 3, 1, 1, 4};
int[] arr3 = {1, 0, 0, 4, 0};
allMinHopsToEnd(arr);
allMinHopsToEnd(arr1);
allMinHopsToEnd(arr2);
allMinHopsToEnd(arr3);
}

}
``````
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