# Convert an alphabetic string into digits and recursively sum them so they're below a certain max

Here's an arithmetical puzzler for you StackOverflowers. I'm working on a JS game that'll allow someone to enter their name and will generate another name based on what they enter. Sort of like this. Basically every time someone enters a particular string, I want to generate the same other string by taking items from a list.

So I have an array of words, numbering 20 in this example

``````"nouns": [
"Nitwit",
"Cretin",
"Village Idiot"
// ..
]
``````

When the user inputs their name, I convert each ASCII alphabetic character to a digit. I'm going to add up all the resulting digits and use the total to select one of the words from my array.

``````// Convert alpha chars to numerical equivalents
function str2num (mystr) {

mystr = mystr.toUpperCase();
var conv = [],
l = mystr.length,
regex = /^[A-Za-z]+\$/;

for (var i = 0; i < l; i++) {
if (regex.test(mystr.charAt(i))) {
conv.push(mystr.charCodeAt(i) - 64);
}
}

var c = conv.length,
sum = 0;
for (var j = 0; j < c; j++) {
sum += conv[j];
}
return sumDigits(sum);

}
``````

Since there are only 20 elements in the word array, I always want the sum to be less than 20. So if it's equal or greater than 20, I want to add up its digits again. This is how I'm currently doing it.

``````// Recursively add digits of number together
// till the total is less than length of word list
function sumDigits (number) {

var sum = number % listLength;

if (number > listLength) {
var remainder = Math.floor(number / 10);
sum += sumDigits(remainder);
}

if (sum > listLength) {
sum = sumDigits(sum);
}

return sum;
}
``````

And when I've got a result below 20, I return the value of `nouns[sum]` to the user. This code pretty much works - the resulting sum is always below the maximum allowed. But the result isn't very random - it seems that I'm getting a disproportionate number of sums in the lower end of the 0 to 20 range. I don't want users to keep seeing words from the beginning of my list. Is there any change I can make to sumDigits that will ensure an even spread of results? Or is this already correct? (I've done this JSFiddle to demo what I'm talking about.)

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What about using a Bag-of-words model using a bag of letters instead of words for each name. Turn their name into a 26 element vector of letter counts and see which name their name is closest to. –  Felix Castor Mar 19 at 15:12

I would make it dependent on the charcode of the characters in the name:

``````function getValue(name) {
var letters = name.toLowerCase().split(''),
value = 0,
i = 0;
for(; i < letters.length; i ++) {
value += letters[i].charCodeAt(0);
}
return value % 20;
}
``````
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since array runs from 0 to 19 why the +1? –  jing3142 Mar 19 at 15:21
@jing3142 You're right. –  fzzle Mar 19 at 15:23
Thanks fzzle, nice solution! I'm already converting the letters using charCodeAt. Just using modulus instead of sumDigits(sum) does seem to produce a better spread of results. –  And Finally Mar 19 at 15:41
@Chris I've just tested it with a string with the length of 98234. There were no problems.. And btw. I don't think any name length is anywhere that long. –  fzzle Mar 19 at 15:53
@fzzle: Yeah, I don't think I did any realism testing in my head here. I was just thinking about summing and modulus problems. And no names that long? Chris is just a short form of my name, my real name is.... ;-) –  Chris Mar 19 at 16:01

The output sum in your current implementation is indeed not uniformly distributed.

As an example, consider all the numbers with one or two digits (1 - 99):

``````1 of them is  summed up to  1 ( 1)
2 of them are summed up to  2 ( 2, 20)
3 of them are summed up to  3 ( 3, 30, 21)
4 of them are summed up to  4 ( 4, 40, 31, 22)
5 of them are summed up to  5 ( 5, 50, 41, 32, 23)
6 of them are summed up to  6 ( 6, 60, 51, 42, 33, 24)
7 of them are summed up to  7 ( 7, 70, 61, 52, 43, 34, 25)
8 of them are summed up to  8 ( 8, 80, 71, 62, 53, 44, 35, 26)
9 of them are summed up to  9 ( 9, 90, 81, 72, 63, 54, 45, 36, 27)
9 of them are summed up to 10 (10, 91, 82, 73, 64, 55, 46, 37, 28)
9 of them are summed up to 11 (11, 92, 83, 74, 65, 56, 47, 38, 29)
8 of them are summed up to 12 (12, 93, 84, 75, 66, 57, 48, 39)
7 of them are summed up to 13 (13, 94, 85, 76, 67, 58, 49)
6 of them are summed up to 14 (14, 95, 86, 77, 68, 59)
5 of them are summed up to 15 (15, 96, 87, 78, 69)
4 of them are summed up to 16 (16, 97, 88, 79)
3 of them are summed up to 17 (17, 98, 89)
2 of them are summed up to 18 (18, 99)
1 of them is  summed up to 19 (19)
``````

This is probably closer to Normal Distribution than to Uniform Distribution.

In order to achieve the latter, simply return `sum % c` instead of `sumDigits(sum)`.

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Thanks barak, fzzle got in with the modulus answer first, but your pyramid of numbers is so beautiful I've given yours an upvote! –  And Finally Mar 19 at 15:43
Thank you, and you're welcome :) –  barak manos Mar 19 at 15:51

fzzle's answer is a good one.

Alternatively, you could do a sum reduction with a while:

``````var reduced = sum;
while(reduced > 20){
reduced -= name.length;
}
``````

This is a more complete example:

``````var sum = 0;
var name = 'John Smith'.split('');

for(var k in name){
sum += name[k].charCodeAt(0);
}

var key = sum;
while(key > 20){
key -= 'John Smith'.length;
}
``````

If you test it you'll see it produced a different results to `sumDigits % 20`. Mind you, I don't know how this method will behave with unusually long names. Let me test it.

Confirmed. XD I tried with `John Smith John Smith John Smith John Smithxx` and broke it. Don't think this qualifies as an answer now. :(

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What if the name is longer than 20 characters? –  fzzle Mar 19 at 15:22

I think `sumDigits` function returns a biased number. Do not return `sumDigits(sum)`. Instead you can return `sum % 20`.

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