# Maximum sum of two numbers in an array with matching digit sums

I am trying to figure out this problem and I am having some issues. Given an array `A` consisting of `N` integers, return the maximum sum of two numbers whose digits add up to an equal sum. if there are not two numbers whose digits have an equal sum, the function should return -1.

For example, `A = [51, 71, 17, 42]` would output: `93`

Explanation: There are two pairs of numbers whose digits add up to an equal sum: (51, 42) and (17, 71), The first pair sums up to 93.

I am a little confused about the process. So far I have taken that array and converted it into a string, then I am splitting the string and making it into an array single digit nums of `'5', '1'` etc. I'm not sure where to go next. I know I have to loop through the array and somehow compare `num+num` to `num + num`. Maybe a loop within a loop?

Any guidance would be greatly appreciated.

Here is what I have so far. It's just a base of what I think should be done; it might be completely wrong but I think I'm headed in the right direction!

``````A = [51, 71, 17, 42]

function sumOfTwoEqNum(a){
a = a.toString().split('').filter(e => e !== ',').map(Number)

for(let i =0; i < a.length; i++){
return a[i] + a[i +1]
}

console.log(a)
}

sumOfTwoEqNum(A)
``````
• Since you have some code, post the code instead of only describing it in words. – Roope Dec 28 '19 at 18:47
• Show some code please – Lewa Bammy Stephen Dec 28 '19 at 18:50
• @Yousername `returns the maximum sum of two numbers whose digits add up to an equal sum.` So find pairs with the same digit sum, sum those pairs up, and from the sum of those pairs the maximum. At least that's how I understand it and that matches the example of the OP. – t.niese Dec 28 '19 at 18:52
• @Yousername "numbers whose digits add up to an equal sum" so, it's `71 + 17` vs `42 + 51` – VLAZ Dec 28 '19 at 18:52
• @symlink the sum of the digits. `42` has two digits `4` and `2` the sum of these digits is `6`. For `51` it's also `6`. While for `71` and `17` the sum of the digits is `8`. – VLAZ Dec 28 '19 at 18:53

Use an object to group numbers based on their digit sums, then scan the object's values and locate the maximal pair. Locating the maximal pair involves filtering out any digit sum buckets that have fewer than 2 members, then finding the largest pair in each remaining bucket by sorting (if performance is a concern, use a loop to locate the top 2). After these preparatory steps, toss the pair sums into `Math.max` to extract the largest.

If there are no valid results, `Math.max` returns `-Infinity` which we can convert to -1.

Time complexity is `O(nb log(b))` where `b` is the length of the longest digit sum bucket (but it could be easily converted to `O(nb)` as described above).

``````const maxDigitSumPair = a => {
const digitSums = a.reduce((a, e) => {
const sum = [..."" + e].reduce((a, e) => a + +e, 0);

if (!a[sum]) a[sum] = [];

a[sum].push(e);
return a;
}, {});

const best = Math.max(...Object.values(digitSums)
.filter(e => e.length > 1)
.map(e => {
e.sort((a, b) => b - a);
return e + e;
})
);
return best === -Infinity ? -1 : best;
};

[
[51, 71, 17, 42],
[51, 71, 17, 43],
[52, 71, 17, 43],
[52, 71, 17, 600],
[321, 123, 231],
[321, 123, 321, 231],
[1, 1, 2],
[1, 2, 3],
[]
].forEach(e => console.log(`[\${e}] =>`, maxDigitSumPair(e)));``````

1) Create an object with the key being the summed number, and the value being an array of the integers summed

2) Iterate through the object and add the arrays' values together

3) Sort the result and return the highest sum

``````const nums = [51, 71, 17, 42]

const obj = nums.reduce((acc,cur) => {
let sum = parseInt(cur.toString()) + parseInt(cur.toString())
acc[sum] = acc[sum] ? acc[sum] : []
acc[sum].push(cur)

return acc
},{})

let res = Object.keys(obj).map(key => obj[key].reduce((a,b) => a + b))
res = res.sort((a,b) => a - b).pop()

console.log(res)``````

You could group and get the max sum form the grouped array.

``````const add = (a, b) => a + b,
sum = s => Array.from(s.toString(), Number).reduce(add);

var array = [51, 71, 17, 42],
result = array
.reduce((r, v) => {
var temp = r.find(([q]) => sum(q) === sum(v));
if (!temp) r.push([v]);
else temp.push(v);
return r;
}, [])

result = result.length !== 2
? -1

console.log(result);``````

• This fails because the OP wanted the sum as the return `For example, A = [51, 71, 17, 42] would output: 93`, so even if you sum it with `.reduce((a, b) => a + b)` which I know you know, at the end, your `result.length` check would still return `-1` as the length would not equal 2 – Darren Sweeney Dec 28 '19 at 19:27

One line solution =)

``````function sum(arr) {
return Math.max(...Object.entries(
arr.reduce((agg, v) => {
const sum = v.toString().split('').map(v => +v).reduce((agg, v) => agg + v)
return Object.assign(agg, { [sum]: [...(agg[sum] || []), v] })
}, {})
).map(([_, values]) =>
values.length > 1 ? (arr => arr + arr)(values.sort((a, b) => b - a)) : 0
))
}
``````

``````//param index of return occurence from 0,1,3,...
function findAPair(index,sum,arr){

//sorted min to max
arr.sort((a,b) => {return a-b})

const result = arr.filter(i => arr.includes(sum-i));
// result [3,15,42,51,78,90]

return [result[index],result[result.length-1-index]];
}

const Arr = [51, 71, 17, 42,90,3,78,15];
const targetSum = 93
console.log(findAPair(0,targetSum,Arr))

//[3,90]

console.log(findAPair(1,targetSum,Arr))

//[15,78]``````