# Code Golf: MSM Random Number Generator

## The challenge:

The shortest code by character count that will generate a series of (pseudo)random numbers using the Middle-Square Method.

The Middle-Square Method of (pseudo)random number generation was first suggested by John Von Neumann in 1946 and is defined as follows:

Rn+1 = mid((Rn)2, m)

For example:

34562 = 11943936

mid(11943936) = 9439

94392 = 89094721

mid(89094721) = 0947

9472 = 896809

mid(896809) = 9680

96802 = 93702400

mid(93702400) = 7024

Another example:

8432 = 710649

mid(710649) = 106

1062 = 11236

mid(11236) = 123

1232 = 15129

mid(15129) = 512

5122 = 262144

mid(262144) = 621

6212 = 385641

mid(385641) = 856

8562 = 732736

mid(732736) = 327

3272 = 106929

mid(106929) = 069

692 = 4761

mid(4761) = 476

4762 = 226576

mid(226576) = 265

## Definition of `mid`:

Apparently there is some confusion regarding the exact definition of `mid`. For the purposes of this challenge, assume that you are extracting the same number of digits as the starting seed. Meaning, if the starting seed had 4 digits, you would extract 4 digits from the middle. If the starting seed had 3 digits, you would extract 3 digits from the middle.

Regarding the extraction of numbers when you can't find the exact middle, consider the number 710649. If you want to extract the middle 3, there is some ambiguity (106 or 064). In that case, extract the 3 that is closest to the beginning of the string. So in this case, you would extract 106.

An easy way to think of it is to pad zeroes to the number if it's not the right number of digits. For example, if you pad leading-zeroes to 710649 you get 0710649 and the middle 3 digits now become 106.

## Test cases:

Make no assumptions regarding the length of the seed. For example, you cannot assume that the seed will always be 4-digit number

A starting seed of 3456 that generates 4-digit random-numbers should generate the following series (first 10):

9439, 947, 9680, 7024, 3365, 3232, 4458, 8737, 3351, 2292

A starting seed of 8653 that generates 4-digit random numbers should generate the following series (first 10):

8744, 4575, 9306, 6016, 1922, 6940, 1636, 6764, 7516, 4902

A starting seed of 843 that generates 3-digit random numbers should generate the following series (first 10):

106, 123, 512, 621, 856, 327, 69, 476, 265, 22

A starting seed of 45678 that generates 5-digit ranom numbers should generate the following series (first 10):

86479, 78617, 80632, 1519, 30736, 47016, 10504, 3340, 11556, 35411

As far as leading zeroes are concerned, the answer is no leading zeroes should be displayed :).

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## locked by Shog9♦Apr 3 at 16:50

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Perl masters, this way \/ \/ \/ \/ – user216441 Apr 23 '10 at 23:43
Please make sure that your code works with the 947 test case as well!!! – DVK Apr 24 '10 at 0:01
Update doesn't compute. It says "assume that you are extracting the same number of digits as the original seed", yet test case says to produce 476 for seed 69. – doublep Apr 24 '10 at 0:17
Please check your solution against all posted test-cases and annotate any deviations. Thanks. – user166390 Apr 24 '10 at 0:43
Isn't it funny that most code golf questions systematically start out with a basic definition and then edge cases come out and only then an extensive writeup of the requirements happen? My, it's just like in the real world! – JRL Apr 24 '10 at 12:22

# dc 26/37 chars

26 chars the function for a single number:

``````?dZsl2^dZ1+ll-2/Ar^/All^%p
``````

37 chars with a 10 cycles loop:

``````?dZsl[2^dZ1+ll-2/Ar^/All^%pdzB>L]dsLx
``````

Explanation of the function:

```?            Input n
dZ           calculate number of digits
sl           store in register l
2^           calculate n^2
dZ           calculate number of digits of square
1+ll-2/Ar^/  n/(10^((squaredigits+1-l)/2)) int division truncates last digits
All^%        n%(10^l) modulus truncates first digits
p            print the number
```

Test:

```dc msml.dc
45678
86479
78617
80632
1519
30736
47016
10504
3340
11556
35411
```
-
Wow, I don't know dc can be used in this way. – user49117 Apr 25 '10 at 14:43

``````=MID(C2^2,LEN(C2^2)/2-LEN(C2)/2+1,LEN(C2))
``````

Usage:

• Put the initial seed in cell `C2`, and drag the formula for all the sequence.

Test Cases:

Screenshot:

Limitations:

• This formula preserves leading zeros, but they could be trimmed using another column and applying `INT()` on the results.
-
This is excellent and it's 42 chars! :) – armandino Apr 24 '10 at 3:33
So, including the "Fill Down" operation, shouldn't this be "42 chars + 1 click-drag"? – Jeff Meatball Yang Apr 24 '10 at 16:23
@Jeff: I would consider the clicks and drags as `stdin`, standard input :) ... That's how the user tells the spreadsheet how long the sequence should be. – Daniel Vassallo Apr 24 '10 at 16:36
@Jeff:I would consider 10 copies of 42 bytes of code to be 420 bytes total, putting this in last place by a wide margin -- which (at the risk of sounding harsh) is exactly where it belongs; duplicating code 10 times to produce 10 values is just a bad idea. – Jerry Coffin Apr 26 '10 at 15:59

# Python (86 chars)

``````r=input()
l=len(str(r))
while 1:
x=str(r*r)
y=(len(x)-l)/2
r=int(x[y:y+l])
print r
``````

Produces infinite sequence on stdout. Note that backtick trick won't work at least on older versions with `long` type because of the ending `L` in representation. Python 3 `print` as function would add 1 more char for closing paren.

-
@doublep I've explained the definition of `mid`. Sorry about that! – Vivin Paliath Apr 24 '10 at 0:20
Thanks for asking for more explanation by the way. I apologize for the initial vagueness of the rules. I hope the current set of rules make more sense. – Vivin Paliath Apr 24 '10 at 0:28
Now works for clarified rules. – doublep Apr 24 '10 at 0:39
+1 And it's readable. – Jon-Eric Apr 24 '10 at 1:58

# C# (96817985 84 chars)

Change log

• Added Yuliy's suggestion for 81
• Removed extra brackets for 79.
• Incremented count because I did not initially count the necessary spaces (only chars).
• Replacing 1.0 by 1d as per Camerons suggestion.

My Code:

``````    int F(int s, int l)
{
var r = "" + 1d*s*s;

return int.Parse(r.Substring((r.Length - l) / 2, l));
}
``````

Usage Example:

``````    int s = 8653;
int l = 4;
for(int i = 0; i< 10; i++)
{
s = F(s, l);
Console.WriteLine(s);
}
``````

Results

``````---8653---
8744
4575
9306
6016
1922
6940
1636
6764
7516
4902

---843---
106
123
512
621
856
327
69
476
265
22

---45678---
86479
78617
80632
1519
30736
47016
10504
3340
11556
35411
``````
-
First line can be replaced with var r = "" + (1.*s*s); to save some characters. – Yuliy Apr 24 '10 at 2:16
Cool! Thanks Yuliy! :-) – AboutDev Apr 24 '10 at 2:27
@AboutDev: Counting `int F(int s, int l){var r=""+1.0*s*s;return int.Parse(r.Substring((r.Length-l)/2, l));}` seems to be 87 chars. Or am I missing something? – Daniel Vassallo Apr 24 '10 at 3:01
@AboutDev: In addition, I think you should derive the length of the seed inside your code, as the length is really functionally dependent on the seed. – Daniel Vassallo Apr 24 '10 at 3:05
Save 1 char by replacing 1.0 with 1d – Cameron MacFarland Apr 24 '10 at 4:08

# Perl (10296959392 79 chars)

`\$s=\$_;\$d=length\$s;map{\$s*=\$s;print 0+(\$s=substr\$s,(\$s=~y///c-\$d)/2,\$d),\$/}0..9`

``````echo -n 3456 | perl -ne '\$s=\$_;\$d=length\$s;map{\$s*=\$s;print 0+(\$s=substr\$s,(\$s=~y///c-\$d)/2,\$d),\$/}0..9'
9439
947
9680
7024
3365
3232
4458
8737
3351
2292
``````
-

## Groovy - 82 chars

``````s=args[0]as int;def r(){f=s*s;g=f as String;t=g.size()/2;g=g[t-2..t+1];s=g as int}
``````

using first argument as seed and output made by 4 base10 digits like in your examples..

-
does there have to be a space between `;` and `def`? 82 chars – SeanJA Apr 23 '10 at 23:53
yep, thx! (padding) – Jack Apr 24 '10 at 0:12
Does this handle 3456 seed? (I don't read Groovy so not sure, sorry) – DVK Apr 24 '10 at 0:58
its output for 3456: 9439, 947, 9680, 7024, 3365, 3232, 4458, 8737, 3351, 2292 – Jack Apr 24 '10 at 1:17
gonna check if it's "new mid definition compliant" tomorrow! – Jack Apr 24 '10 at 1:18

## Perl, 80 chars

(from commandline)

``````\$n=pop;\$l=length\$n;map{\$n*=\$n;print 0+(\$n=substr\$n,(length(\$n)-\$l)/2,\$l),\$/}0..9
``````
-

# Ruby, 8576 69 chars (generates and prints 10 numbers)

``````n=gets
l=n.size
10.times{n=n.to_i;x=(n*n).to_s;p n=x[(x.size-l)/2,l]}
``````

Output

``````> ruby rand.rb < 3456
9439
947
9680
7024
3365
3232
4458
8737
3351
2292

> ruby rand.rb < 8653
8744
4575
9306
6016
1922
6940
1636
6764
7516
4902

> ruby rand.rb < 843
106
123
512
621
856
327
69
476
265
22

> ruby rand.rb < 45678
86479
78617
80632
1519
30736
47016
10504
3340
11556
35411
``````
-

## JavaScript: 91 characters

``````function a(s,n){m=(s+'').length;while(n--)c=''+s*s,s=1*c.substr((c.length-m)/2,m);return s}
``````

Usage:

``````a(3456, 4);     // 4th seed of 3456:   Returns: 7024
a(8653, 2);     // 2nd seed of 8653:   Returns: 4575
a(843, 10);     // 10th seed of 843:   Returns: 22
a(45678, 6);    // 6th seed of 45678:  Returns: 47016
``````

Full Test Cases:

``````var tests = [3456, 8653, 843, 45678];

for (var i = 0; i < tests.length; i++) {
console.log('-------------');
console.log('| Seed: ' + tests[i]);
console.log('-------------');

for(var j = 1; j <= 10; j++) {
console.log('| ' +  a(tests[i], j));
}

console.log('~~~~~~~~~~~~~');
}
``````

Test Results:

``````-------------         -------------
| Seed: 3456          | Seed: 8653
-------------         -------------
| 9439                | 8744
| 947                 | 4575
| 9680                | 9306
| 7024                | 6016
| 3365                | 1922
| 3232                | 6940
| 4458                | 1636
| 8737                | 6764
| 3351                | 7516
| 2292                | 4902
~~~~~~~~~~~~~         ~~~~~~~~~~~~~

-------------         -------------
| Seed: 843           | Seed: 45678
-------------         -------------
| 106                 | 86479
| 123                 | 78617
| 512                 | 80632
| 621                 | 1519
| 856                 | 30736
| 327                 | 47016
| 69                  | 10504
| 476                 | 3340
| 265                 | 11556
| 22                  | 35411
~~~~~~~~~~~~~         ~~~~~~~~~~~~~
``````
-

Note: An infinite list is produced containing MSM random numbers.

## Function, 81

``````l=length
m k n=take k\$drop(div(l n-k)2)n
``````

Example usage:

``````r 34562
``````

Example output:

``````[34562,94531,36109,3859,48918,92970,...
``````

## Program, 103

``````l=length
m k n=take k\$drop(div(l n-k)2)n
``````

-

Can probably still be shortened. Produces an infinite sequence, or at least it encounters 0, in which case it crashes.

``````i(f:l)x=x:i l(f x)
``````

Usage: `b <length of number> <number>`

``````*Main> b 5 45678
[45678,86479,78617,80632,1519,30736,47016,10504,3340,11556,35411...
``````

Explanation

Rather than applying substring and using string length arithmetic, this program iterates between removing the last character (`init`), and removing the first character (`tail`) until the desired length is reached.

As `iterate` as well as most Haskell functions assume that the function used is constant. Since we have the function itself changing, we need to implement a special version of `iterate`.

-

# Ruby (66 chars)

Assuming integer inputs:

``````def r s,l=s.to_s.size;x=(s*s).to_s;y=x.size;x[(y-l)/2,l].to_i;end
``````
-

## Lua (135128 114 chars)

``````function r(i)
l=string.len
b=i or b
s=i or s
p=s*s..""
e=(l(p)-l(b))/2
s=tonumber(p:sub(e+1,e+l(b)))
return s
end
``````

Seeds with one argument and returns first MSM random integer; subsequent calls with no arguments return next MSM random integer. Call will another integer to re-seed.

Test:

``````> =r(3456)
9439
> =r()
947
> =r()
9680
> =r()
7024
> =r()
3365
> =r()
3232
> =r()
4458
> =r()
8737
> =r()
3351
> =r()
2292
> =r(8653)
8744
> =r()
4575
> =r()
9306
> =r()
6016
> =r()
1922
> =r()
6940
> =r()
1636
> =r()
6764
> =r()
7516
> =r()
4902
> =r(843)
106
> =r()
123
> =r()
512
> =r()
621
> =r()
856
> =r()
327
> =r()
69
> =r()
476
> =r()
265
> =r()
22
> =r(45678)
86479
> =r()
78617
> =r()
80632
> =r()
1519
> =r()
30736
> =r()
47016
> =r()
10504
> =r()
3340
> =r()
11556
> =r()
35411
>
``````
-

Perl - 112 - now, 108 - now 95 (thanks to Zaid's idea) - chars sans white space, excluding test driver loop (e.g. I only counted the code to generate 1 sequence) - the code in the body of foreach loop.

``````@s=(8653,843,45678,3456);
foreach \$s (@s){
for(0..9){\$s*=\$s;\$l=length(\$s);\$L||=(\$l+1)/2;\$H=(\$l+\$L+1)/2;
\$s=substr(\$s,-\$H,\$L)+0;
print "\$s,"
}
print "\n";
\$L=0; @S=(); # Reset for next loop
}
``````

Output:

``````8744,4575,9306,6016,1922,6940,1636,6764,7516,4902,
106,123,512,621,856,327,69,476,265,22,
86479,78617,80632,1519,30736,47016,10504,3340,11556,35411,
9439,947,9680,7024,3365,3232,4458,8737,3351,2292,
``````

Compressed code that was 112:

``````for(0..9){\$s*=\$s;\$l=length(\$s);\$L||=(\$l+1)/2;\$H=(\$l+\$L+1)/2;\$s=substr(\$s,-\$H,\$L)+0;print "\$s,"}
``````
-
NOTE: the current code obeys all the rules and correctly handles both given test cases AND the example case – DVK Apr 24 '10 at 0:37
@Zaid - added, thanks! 95 now! – DVK Apr 24 '10 at 13:19
No problem. No need for the space after `print` – Zaid Apr 24 '10 at 13:40

## Perl, 10094929190 88 chars

Seed provided through standard input. Newlines included for readability:

``````@n=(\$n=pop)=~/./g;
for(0..9){
@s=\$n**2=~/./g;
\$n=join\$\,splice@s,(@s-@n)/2,@n;
print\$/,\$n+0
}
``````
-