# Code Golf: Happy Primes!

It's Sunday, time for a round of code golf!

# Challenge

Write the shortest source code by character count to determine if an input number is a "happy prime", "sad prime", "happy non-prime", or "sad non-prime."

# Input

The input should be a integer that comes from a command line argument or stdin. Don't worry about handling big numbers, but do so if you can/want. Behavior would be undefined for input values less than 1, but 1 has a definite result.

# Output

Output should print the type of number: "happy prime", "sad prime", "happy non-prime", or "sad non-prime." The trailing newline is optional.

# Examples

``````\$ happyprime 139
happy prime
\$ happyprime 2
\$ happyprime 440
happy non-prime
\$ happyprime 78
``````

# Definitions

Just in case your brain needs a refresher.

## Happy Number

From Wikipedia,

A happy number is defined by the following process. Starting with any positive integer, replace the number by the sum of the squares of its digits, and repeat the process until the number equals 1 (where it will stay), or it loops endlessly in a cycle which does not include 1. Those numbers for which this process ends in 1 are happy numbers, while those that do not end in 1 are unhappy numbers (or sad numbers).

For example,

• 139
• 1^2 + 3^2 + 9^2 = 91
• 9^2 + 1^2 = 82
• 8^2 + 2^2 = 68
• 6^2 + 8^2 = 100
• 1^2 + 0^2 + 0^2 = 1

## Prime Number

A prime number is an integer greater than 1 and has precisely two divisors: 1 and itself.

## Happy Prime

A happy prime, is therefore a number that is both happy and prime.

Obviously the answer will be the shortest source code by character count that outputs the specified results in all cases that I test. I will mark the answer once the next (community decided) code golf challenge comes along, so we can focus all our energies on that one. :)

## Decision

Well, it looks like the there is a new code golf in town and it has been about a week since this question was posted, so I've marked the shortest source code as the answer (gnibbler's 64 character Golfscript solution). That said, I enjoyed both the 99 character Mathematica solution by belisarius and the cryptic 107 character dc solution by Nabb.

To all others, great work! I've never had so many programming language environments on my computer. I hope everyone has learned some new, dirty tricks for their favorite language.

# Reuse

I've re-published some of the code produced by this competition as an example for a script I wrote to test various programs against a reference implementation for auto-grading. The README in that directory explains where the source code comes from and states that all code is re-used under the CC BY-SA 2.5 license (as stated in SO's legal section). Each directory is labeled with your display name at the time of the submission.

If you have a problem with your code being re-used in this fashion or the attribution, let me know and I will correct the error.

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## locked by Shog9♦Apr 3 '15 at 16:36

This question exists because it has historical significance, but it is not considered a good, on-topic question for this site, so please do not use it as evidence that you can ask similar questions here. This question and its answers are frozen and cannot be changed. More info: help center.

Doctor Who Episode 184("42")? – nuclearsandwich Aug 23 '10 at 5:01
nuclearsandwich: Indeed, that was the impetus for the question. – mjschultz Aug 23 '10 at 11:57
Corey Ogburn: According to meta they are. Though some people don't like them, I think it provides an interesting view of various language features, and I've seen many unexpected ways of finding the answer here. (All shorter than my reference implementation.) – mjschultz Aug 23 '10 at 18:59
Made a web application out of it in case you're in dire need to find out whether your favourite number is happy, prime, or both! startwithabreak.com/happyprimeweb Will try and golf it but seems like it's a bit late in the game. – Radu Aug 24 '10 at 16:11

## PARI/GP

### 184 bytes

A Bit late to participate, but here's a short one.

``````a(x,v=[])=s=0;while(x,s+=(x%10)^2;x\=10);for(k=1,length(v),if(v[k]==s,return("sad ")));return(if(s==1,"happy ",v=concat(v,s);a(s,v)));f(x)=print(a(x),if(!isprime(x),"non-",""),"prime")
``````

To use it. Write `f(139)`

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# Racket, 286 characters

Only issue is that 1 is prime.

``````(define d
(lambda (n)
(cond
((= n 0) 0)
((+
(expt (modulo n 10) 2)
(d (floor (/ n 10)))
))
)
)
)

(define dd
(lambda (n l)
(cond
((= n 1) "happy ")
((for/or ([v l]) (= n v)) "sad ")
((dd (d n) (cons n l)))
)
)
)

(define cg
(lambda (n)
(display (dd n '()))
(display
(if
(for/and
([i (in-range 2 (floor (+ (sqrt n) 1)))]) (> (modulo n i) 0))
"prime" "non-prime"
))
)
)
``````
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## JavaScript - 171 (Closure Compiler Compressed)

Just found this fun challenge. This is 171 characters in JavaScript:

``````function h(a){for(b=2,c="";b<a;b++)a%b||(c="non-");c+="prime";for(b={};;){if(a==1)return"happy "+c;if(b[a])return"sad "+c;b[a]=1;for(e=0;a;){d=a%10;e+=d*d;a=(a-d)/10}a=e}}
``````

I ran the source code through the Closure Compiler in Advanced Mode to compress it. The source:

``````function h(num)
{
// Check for prime-ness
// Save the word "prime" by attaching a "non-" in front if it has a factor
// Notice that we are not concerned with performance here, otherwise should
// break when a factor is found and should only go up to Math.sqrt(num)

for (var x=2, prime=""; x < num; x++) {
if (!(num % x)) prime="non-";
}

// Create "prime" or "non-prime"

prime += "prime";

// Keep all visited numbers in a hash

var visited = {};

while(true) {
// If the number is one, then happy
if (num == 1) return "happy " + prime;

// Otherwise put it into the hash
if (visited[num]) return "sad " + prime;
visited[num] = 1;

// Recalculate the new number by shifting through each digit
var sum = 0;
while (num) {   // Stop when num -> 0 (i.e. no more digits)
var digit = num % 10;
sum += digit * digit;
num = (num - digit)/10; // Shift by one digit
}

num = sum;
}
}
``````
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