Java Algorithm Question

Problem Statement :: In Java ,Given an array of ints, is it possible to choose a group of some of the ints, such that the group sums to the given target, with this additional constraint: if there are numbers in the array that are adjacent and the identical value, they must either all be chosen, or none of them chosen. For example, with the array {1, 2, 2, 2, 5, 2}, either all three 2's in the middle must be chosen or not, all as a group. (one loop can be used to find the extent of the identical values).

`````` groupSumClump(0, {2, 4, 8}, 10) → true
groupSumClump(0, {1, 2, 4, 8, 1}, 14) → true
groupSumClump(0, {2, 4, 4, 8}, 14) → false --> Failing Test Case
groupSumClump(0, {8, 2, 2, 1}, 9) → true   --> Failing Test Case
groupSumClump(0, {8, 2, 2, 1}, 11) → false --> NegativeArraySizeException
``````

I have done some initial Analysis and the partial code is as below.

``````  public boolean groupSumClump(int start, int[] nums, int target) {
start = 0;
boolean flag = false;

// get the highest int from the list of array we have
int highestInteger = getTheBiggest(nums);
if (highestInteger > target) {
flag = false;
} else {
int variable = 0;
for (int i = 0; i < nums.length; i++) {
variable += nums[i];
}
if (variable == target) {
flag = true;
} else {
if (variable < target) {
flag = false;
} else {
// here goes ur grouping logic here
flag = summate(highestInteger, target, nums);
}
}
}

return flag;
}

private  boolean summate(int highestInteger, int target, int[] nums) {
boolean val = false;
if (highestInteger == target) {
val = true;
} else {
int[] temp = new int[nums.length - 1];
int var = 0;

if ((target - highestInteger) > 0) {
for (int j = 0; j < nums.length-1; j++) {
if (nums[j] != highestInteger) {
temp[var] = nums[j];
if (temp[var] == (target - highestInteger)) {
val = true;
return val;
}
var++;
}
}
val = summate(getTheBiggest(temp), target - highestInteger,
temp);

}
}
return val;
}

private int getTheBiggest(int[] nums) {
int biggestInteger = 0;
for (int i = 0; i < nums.length; i++) {
if (biggestInteger < nums[i]) {
biggestInteger = nums[i];
}
}
return biggestInteger;
}
``````

Please Note: I dont know how to handle the logic for below problem statement : There is an `Additional Constraint` to the problem such that if there are numbers in the array that are adjacent and the identical value, they must either all be chosen, or none of them chosen. For example, with the array {1, 2, 2, 2, 5, 2}, either all three 2's in the middle must be chosen or not, all as a group. (one loop can be used to find the extent of the identical values).

how should i handle this part of logic in above problem. I have been struggling to get this right with no idea. Suggestions provided will be appreciated. Culd you let me know what is the problem with the code/how to handle the additional constraint in this problem, :-((

Additional constraint says either u select as a group and not select as a group.so i dont know how to proceed.if u can PLEASE help me.it will be appreciated.

EDIT FOR USER->MISSINGNO: I have added the below code construct to above main code and it prints me wrong values.where have i gone wrong.

groupSumClump(0, {2, 4, 4, 8}, 14) → false is failing again 2 8 4 The flag is -->true which is wrong.

``````      for(int number=0;number<nums.length-1;number++){
if(nums[number]==nums[number+1]){
nums[number]=nums[number]+nums[number+1];
}
}
``````
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I would convert the array to a simpler array that can be solved with your previous method, by clumping the adjacent values:

``````{1, 2, 2, 2, 5, 2} --> {1, 6, 5, 2}
``````

You might want to keep some extra bookkeeping info though to be able to find the original solution from a solution to the altered problem.

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That's also what I answered - just after you :) – extraneon May 15 '11 at 14:20
what is the change required in my code now.i m unable to proceed. – deepakl.2000 May 15 '11 at 14:20
I'm pretty sure you can do this yourself from now on. We don't give code for homework problems here on SO. – hugomg May 15 '11 at 14:25
its not a HW.Trust me i have not been able to figure this out. – deepakl.2000 May 15 '11 at 14:26
Additional constraint says either u select as a group and not select as a group.so i dont know how to proceed.if u can `PLEASE `help me.it will be appreciated. – deepakl.2000 May 15 '11 at 14:30

This problem is similar to finding group of integers in an array which sum up to a given target.

Hint for this problem is:

The base case is when start>=nums.length. In that case, return true if target==0. Otherwise, consider the element at nums[start]. The key idea is that there are only 2 possibilities -- nums[start] is chosen or it is not. Make one recursive call to see if a solution is possible if nums[start] is chosen (subtract nums[start] from target in that call). Make another recursive call to see if a solution is possible if nums[start] is not chosen. Return true if either of the two recursive calls returns true.

You can use the same hint but with a loop in it to find sum of repeated numbers in array. Make a call to see if a solution is possible if the sum is chosen and make another call if the sum is not chosen.Return true if either of the two recursive calls returns true.

I think this would help.

``````public boolean groupSumClump(int start, int[] nums, int target)
{
if(start >= nums.length) return target == 0;

int count = 1;
while(start+count < nums.length && nums[start] == nums[start+count])
count++;

if(groupSumClump(start+count, nums, target-count*nums[start])) return true;
if(groupSumClump(start+count, nums, target)) return true;

return false;
}
``````
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Once you've done `missingno`'s preprocessing step (in linear time) what you have is essentially the subset sum problem. It's a rather hard problem, but approximate algorithms exist- might as well turn out to be practical depending on how long your sequence is.

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the problem statement is ambigious and not clear:

with this additional constraint: if there are numbers in the array that are adjacent and the identical value, they must either all be chosen, or none of them chosen. For example, with the array {1, 2, 2, 2, 5, 2}, either all three 2's in the middle must be chosen or not, all as a group

how about choosing single digits if the 'streaks' did not work out? same example: {1,2,2,2,5,2}

in one recursive call we choose the streak of 2 2 2 (from answer above) *if(groupSumClump(start+count, nums, target-count*nums[start])) return true*

in the next rec. call why can't we subtract the first single digit at nums[start]: if(groupSumClump(start+count, nums, target)) return true;

can i do this:

if(groupSumClump(start+1, nums, target - nums[start])) return true;

DOES IT MEAN WE CAN NEVER CHOOSE SINGLE DIGITS?

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