# Checking whether a number is mathematically a perfect number

The algorithm should check a given number and return 'true' if it is a perfect number or 'false' if it is not.

The wikipedia definition of a perfect number:

In mathematics, a perfect number is a positive integer that is the sum of its proper positive divisors, that is, the sum of the positive divisors excluding the number itself. Equivalently, a perfect number is a number that is half the sum of all of its positive divisors (including itself), or σ(n) = 2n.itself), or σ(n) = 2n.

The task is to solve this in the least amount of characters. Bonus points if it can check an arbitrarily high number.

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There is not that much of a point in golfing this if rosetta already provides you with so many short solutions. –  relet Aug 12 '10 at 22:40
oh, didn't know about that; care to provide a link? –  Swizec Teller Aug 12 '10 at 22:46
rosettacode.org/wiki/Perfect_numbers –  relet Aug 12 '10 at 22:48
Forgot to mark this community wiki? –  Wayne Werner Aug 13 '10 at 15:53
yes, marking now :) –  Swizec Teller Aug 13 '10 at 16:21
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## Golfscript - 17 chars

``````~.:@,{.@\%1<*+}*=
``````

explanation

``````~  evals the input, turning it into an int
.  pushes another copy of the input onto the stack
:@ store it in a variable called @
,  push a list from 0...@-1 onto the stack
{  loop through the list of factors (the 0 isn't part of the loop see here)
.  duplicate the list index                                             \
@  push the number onto the stack                                        \
\  swap the top two items                                                 \
%  take mod of those two items and push back onto the stack                \
1< less than one? (zero?) push onto the stack                               \
*  multiply, so we have zero or the factor depending whether it divides      \
+  add to the previous item (for the first loop, this is the previous item is 0 )
}  end of the loop
*  this is a fold or reduce across the loop
=  does the sum equal the original number?
``````
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## Python - 45 chars

``````lambda n:n==sum(i*(n%i<1)for i in range(1,n))
``````
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No, you just beat me. I had that same idea before the refresh. :D –  relet Aug 12 '10 at 22:51

# Python - 48 characters

`lambda n:n==sum(i for i in range(1,n) if n%i<1)`

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ooh just beat me :p ok down to 45 :) –  gnibbler Aug 12 '10 at 22:45

C# 45 characters.

``````Enumerable.Range(1,x-1).Sum(n=>x%n==0?n:0)==x;
``````
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I'm tempted to do a really perverse XSLT too. –  Jon Hanna Aug 13 '10 at 0:37
+1 good job but u can improve it by Enumerable.Range(1,x/2).Sum(n=>x%n==0?n:0)==x; (2 char will be added but performance is better 2 time). –  Saeed Amiri Jul 4 '11 at 4:24
The point is to have a small code size only, so that extra 2 characters makes it over 4% worse by the criterion in question. –  Jon Hanna Jul 4 '11 at 20:04
Hanna, I made mistake, my code doesn't add extra characters, it just improves performance. –  Saeed Amiri Jul 5 '11 at 5:08
Yep, right you are. –  Jon Hanna Jul 5 '11 at 8:54

## F# 50 chars

Too bad F# doesn't have a ternary conditional operator. The shortest solution I found is to filter the proper divisors first and then sum them.

``````let s n=n=Seq.sum(Seq.filter((=)0<<(%)n){1..n-1})

//long version
let IsPerfect n =
let properDivisors =
{1..n-1} |> Seq.filter (fun d -> n%d = 0)
n = Seq.sum properDivisors

//For 3 more characters you can use bigints (suffix I)
let t n=n=Seq.sum(Seq.filter((=)0I<<(%)n){1I..n-1I})
``````

Example in F# interactive:

``````> [1..10000] |> List.filter s;;
val it : int list = [6; 28; 496; 8128]
``````
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# Clojure - 304 characters

My attempt in clojure, it can go as high as 1.44115188*10^17. I'm new to lisp so certainly someone can do better :)

``````(defn pow [n p] (loop [cnt 1 base n] (if (= cnt p) base (recur (inc cnt) (* base n)))))
(defn perfect [p] (* (pow 2 (dec p)) (dec (pow 2 p))))
(defn perfect? [n] (reduce (fn [a b] (or a b)) (map (fn [p] (= n (perfect p))) [2 3 5 7 11 13 17 19 23 29])))
``````
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You should be able to do better by just shortening the variable names, at the cost of readability. For example, "perfect" is a seven-letter word you use three times. Change it to a single letter and you're 18 characters better. –  David Thornley Aug 17 '10 at 18:10

# PHP5.3 89 characters

``````function(\$n){return \$n==array_reduce(range(1,\$n),function(\$a,\$b) use(\$n){\$a+=\$n%\$b?0:\$b;});}
``````
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## Ruby - 48 chars

``````def f(n)n==(1...n).inject{|s,i|s+(n%i<1?i:0)}end
``````

Ruby - 49 chars

``````def f(n)n==(1...n).select{|i|n%i<1}.inject(:+)end
``````

Ruby - 50 chars

``````def f(n)n==(1...n).map{|i|n%i<1?i:0}.inject(:+)end
``````
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## Haskell - 40 chars

``````(==)n\$sum\$filter(\x->n`mod`x==0)[1..n-1]
``````
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35: `n==sum(filter((==0).mod n)[1..n-1])` –  sdcvvc May 12 '12 at 2:07

# Mathematica 20 chars

``````Total@Divisors@#＝2#&
``````

Or

``````DivisorSum[#,#&]＝2#&
``````
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Perl 49 51 75 characters

Last edit: Of course I can just use `pop` instead of `shift` for a one-argument `@_` list...

``````sub r{\$a=pop;\$a%\$_ or\$t+=\$_ for(1..\$a-1);\$t==\$a}
``````

Explanation:

``````\$a=pop;
``````

Extracts the sole argument.

``````for(1..\$a-1)
``````

(This is further down) The second statement applies over this range, from 1 to one less than the input.

``````\$a%\$_ or
``````

Takes the mod of `\$a` and `\$_` (the loop counter alias). If that is 0 (meaning `\$_` is a factor of `\$a`)...

``````\$t+=\$_
``````

...then the total is incremented by that amount.

``````\$t==\$a
``````

If the total is the input, it's a perfect number. A true or false value is returned.

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``````sub p{map\$s+=\$n%\$_?0:\$_,1..(\$n=pop)-1;\$s==\$n}