# Method that determines if a number is 'insipid'

So I have been tasked with writing a program that determines if a number is insipid or not. Meaning, if you take a number: 57 for example, and you add the square of each digit, 5*5 + 7*7, that is now the new number:74. And you keep doing that until you either get 58 which means the number is NOT insipid, or you get 1, meaning the number is. 58 will just repeat a sequence that always ends back on 58.

So I wanted to attempt it with some basic recursion but perhaps I misunderstand the use of recursion here.

Here are the two relevant methods I wrote:

``````public static boolean insipid(int num){

int dig1 = 0, dig2 = 0, dig3 = 0; // num = 159 for example, dig1 would be 1. Default is 0 in case of a 2 digit number, dig1*dig1 = 0
if(num == 58){ //The number is not insipid
return false;
}
if(num == 1){ // the number is insipid
return true;
}

if (num < 10){
insipid(num * num);
}
if(num>99){
dig1 = (int)(num / 100);
dig2 = (int)((num - 100)/10);
dig3 = num - (((int)(num / 10))*10);
insipid(squaresum(dig1,dig2,dig3));
}
else{
dig2 = (int)(num/10); //the 10s place
dig3 = num - (((int)(num/10)) * 10); // the 1's place
insipid(squaresum(dig1, dig2,dig3)); //dig1 = 0 so I just pass it along with it.
}
}

public static int squaresum(int dig1, int dig2, int dig3){
//Returns the sum of three digits squared.
return (dig1 * dig1) + (dig2 * dig2) + (dig3 + dig3);
}
``````

It gives me an error saying that Insipid() must return a boolean whenever I supply it a number. But I know for any number given it will always either eventually resolve to 58 or 1. So shouldn't true or false always eventually be returned so a boolean is returned and the error is invalid? Obviously this is not the case, but how I see it. Is it the use of the recursion here that is invalid?

Also, if you have any suggestions on how I might clean this up I wouldn't mind harsh criticism, my java is not very good.

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For one, you are not returning anything on the else of insipid. Perhaps a `return insipid(....)` should do de trick to get rid of your compile time error. – rmarimon Oct 12 '12 at 2:02
I assume you already realize this, but dig2 = (int)((num - 100)/10); ensures that your algorithm won't work for any number bigger than 199. – 0xFE Oct 12 '12 at 2:07

Update you insipid as below. A method declared with `return` must return values in all cases. Your method doesn't return any value if it reach second else i.e. if number is anything other than 1 & 58.

``````public static boolean insipid(int num){
boolean returnValue = false;
if(num == 58){ //The number is not insipid
//do nothing
} if(num == 1){ // the number is insipid
returnValue = true;
}else{
int dig1 = 0, dig2 = 0, dig3 = 0; // num = 159 for example, dig1 would be 1. Default is 0 in case of a 2   digit number, dig1*dig1 = 0
if (num < 10){
returnValue = insipid(num * num);
}
else if(num>99){
dig1 = (int)(num / 100);
dig2 = (int)((num - 100)/10);
dig3 = num - (((int)(num / 10))*10);
returnValue = insipid(squaresum(dig1,dig2,dig3));
}
else{
dig2 = (int)(num/10); //The 10s place
dig3 = num - (((int)(num/10)) * 10); //the 1s place
returnValue = insipid(squaresum(dig1, dig2,dig3)); //dig1 = 0 so I just pass it along with it.
}
}
return returnValue ;
}
``````

-

If you went with your solution, the only thing missing is the return statements from the recursive calls to `incipid`.

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In addition to Yogendra Singh's answer, you're calculating digits incorrectly: e.g. with

``````dig2 = (int)((num -100)/10);
``````

you're assuming that the hundreds digit is 1. Try

``````dig2 = (int)((num - dig1 * 100)/10);
``````

and similarly for `dig3`.

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a very good way to get the digit of any number is given in the following post : stackoverflow.com/questions/701322/… – Etienne Oct 12 '12 at 2:19