# How can I generate this pattern of numbers?

Given inputs 1-32 how can I generate the below output?

in. out

1. 1
2. 1
3. 1
4. 1
5. 2
6. 2
7. 2
8. 2
9. 1
10. 1
11. 1
12. 1
13. 2
14. 2
15. 2
16. 2 ...

Edit Not Homework.. just lack of sleep.

I am working in C#, but I was looking for a language agnostic algorithm.

Edit 2 To provide a bit more background... I have an array of 32 items that represents a two dimensional checkerboard. I needed the last part of this algorithm to convert between the vector and the graph, where the index aligns on the black squares on the checkerboard.

Final Code:

`````` --Index;
int row = Index >> 2;
int col = 2 * Index - (((Index & 0x04) >> 2 == 1) ? 2 : 1);
``````
-
Could you just clarify what language you need it. I think you got a lot of plausible answer below, but do you use one of those? –  David Brunelle Nov 30 '09 at 15:36
Is this homework? Many of the answers below are correct but so much more complicated than the question that I doubt you will be able to explain them to your teacher ... :-) –  Rasmus Kaj Nov 30 '09 at 15:40
You couldn't show us all 32 ins and outs? –  Nosredna Nov 30 '09 at 15:57

## 15 Answers

Assuming that you can use bitwise operators you can check what the numbers with same output have in common, in this case I preferred using input 0-31 because it's simpler (you can just subtract 1 to actual values)

What you have?

``````0x0000 -> 1
0x0001 -> 1
0x0010 -> 1
0x0011 -> 1
0x0100 -> 2
0x0101 -> 2
0x0110 -> 2
0x0111 -> 2
0x1000 -> 1
0x1001 -> 1
0x1010 -> 1
0x1011 -> 1
0x1100 -> 2
...
``````

It's quite easy if you notice that third bit is always `0` when output should be `1` and viceversa it's always `1` when output should be `2`

so:

``````char codify(char input)
{
return ((((input-1)&0x04)>>2 == 1)?(2):(1));
}
``````

EDIT

As suggested by comment it should work also with

``````char codify(char input)
{
return ((input-1 & 0x04)?(2):(1));
}
``````

because in some languages (like C) `0` will evaluate to `false` and any other value to `true`. I'm not sure if it works in C# too because I've never programmed in that language. Of course this is not a language-agnostic answer but it's more C-elegant!

-
Excellent, thanks! –  Nescio Nov 30 '09 at 15:35
Why not: return (input - 1) & 4 == 4 ? 2 : 1; –  FogleBird Nov 30 '09 at 15:55
Because I'm used to approach mask, shift and check.. it's just personal taste, isnt't? –  Jack Nov 30 '09 at 15:57
Because it contains tons of redundancy: input - 1 & 4 ? 2 : 1 is much better :-) –  hirschhornsalz Nov 30 '09 at 15:57
I like drhirsch's answer even better, but some languages require a bool value when truth testing. –  FogleBird Nov 30 '09 at 15:59

in C:

``````char output = "11112222"[input-1 & 7];
``````

or

``````char output = (input-1 >> 2 & 1) + '1';
``````

or after an idea of FogleBird:

``````char output = input - 1 & 4 ? '2' : '1';
``````

or after an idea of Steve Jessop:

``````char output = '2' - (0x1e1e1e1e >> input & 1);
``````

or

``````char output = "12"[input-1>>2&1];
``````

C operator precedence is evil. Do use my code as bad examples :-)

-
nicely done I was thinking of: out = (5>(in%8))?1:2; –  eliocs Nov 30 '09 at 15:31
Nice reformulation. My "best" ever use of lookup into an integer was to Gray code 2 bits per index into a 32-bit int, in order to select one of 4 values for each integer 1-31, to map them to suffixes "st", "nd", "rd", "th" (potentially looked up again, in a 64bit integer, although normally that doesn't help at all because a constant pool value is no better than a char array). Unfortunately that one-liner didn't survive localisation ;-) –  Steve Jessop Nov 30 '09 at 22:33
I wanted to get rid of the "-1" :-) Sometimes sub byte operations can be very useful. With lookup tables, I found a gem: The pshufb instrucution. Intended for arbitrarily shuffling the contents of a 16 byte SSE register, it can by abused to do a lookup of a table with a very limited size of 16 different values. Doesn't sound so good? Well, it can do 16 of those lookups parallel in one clock cycle. Good for a massive speed up in my chess program, I need now 4 instructions to do a lookup of all 64 squares, and the limited table size isn't a problem, since there are less than 16 different pieces. –  hirschhornsalz Nov 30 '09 at 22:50
You say abused. Seems to me it's designed precisely as a 16-parallel use of a 16-entry lut, and Intel just gave it a funny name :-) –  Steve Jessop Nov 30 '09 at 23:49

You could use a combination of integer division and modulo 2 (even-odd): There are blocks of four, and the 1st, 3rd, 5th block and so on should result in 1, the 2nd, 4th, 6th and so on in 2.

``````s := ((n-1) div 4) mod 2;
return s + 1;
``````

`div` is supposed to be integer division.

EDIT: Turned first mod into a div, of course

-

Just for laughs, here's a technique that maps inputs 1..32 to two possible outputs, in any arbitrary way known at compile time:

``````// binary 1111 0000 1111 0000 1111 0000 1111 0000
const uint32_t lu_table = 0xF0F0F0F0;

// select 1 bit out of the table
if (((1 << (input-1)) & lu_table) == 0) {
return 1;
} else {
return 2;
}
``````

By changing the constant, you can handle whatever pattern of outputs you want. Obviously in your case there's a pattern which means it can probably be done faster (since no shift is needed), but everyone else already did that. Also, it's more common for a lookup table to be an array, but that's not necessary here.

-
+1 For the idea. I will reformulate this ;-) –  hirschhornsalz Nov 30 '09 at 20:34

The accepted answer `return ((((input-1)&0x04)>>2 == 1)?(2):(1));` uses a branch while I would have just written:

`return 1 + ((input-1) & 0x04 ) >> 2;`

-
+1 for the idea. –  FogleBird Nov 30 '09 at 16:25
Note that after optimization and constant folding the branch will most likely be gone. And I think its got accepted because its one the the few answers which does explain something. –  hirschhornsalz Nov 30 '09 at 20:42

Python

``````def f(x):
return int((x - 1) % 8 > 3) + 1
``````

Or:

``````def f(x):
return 2 if (x - 1) & 4 else 1
``````

Or:

``````def f(x):
return (((x - 1) & 4) >> 2) + 1
``````
-

In Perl:

``````#!/usr/bin/perl

use strict; use warnings;

sub it {
return sub {
my (\$n) = @_;
return 1 if 4 > (\$n - 1) % 8;
return 2;
}
}

my \$it = it();

for my \$x (1 .. 32) {
printf "%2d:%d\n", \$x, \$it->(\$x);
}
``````

Or:

``````sub it {
return sub {
my (\$n) = @_;
use integer;
return 1 + ( ((\$n - 1) / 4) % 2 );
}
}
``````
-
Thats overkill. –  hirschhornsalz Nov 30 '09 at 15:29
So what? On second thought, it looks like I gave a serious answer to an arithmetic question that should have been closed as "not programming related". –  Sinan Ünür Nov 30 '09 at 15:33
Come on, I didn't downvote you. It's just that in my opinion your solution lacks some elegance, especially compared to mine ;-) –  hirschhornsalz Nov 30 '09 at 15:36
I'de use the second one, since it has less line for the same thing. –  David Brunelle Nov 30 '09 at 15:36
@drhirsch I prefer to give full, runnable code as answers rather than single lines. So, you might think `1 + (4 > (\$n - 1) % 8)` is a better answer, but I prefer to give full, runnable code as an answer. –  Sinan Ünür Nov 30 '09 at 15:40

In Haskell:

``````vec2graph :: Int -> Char
vec2graph n = (cycle "11112222") !! (n-1)
``````
-

Thats pretty straightforward:

``````if (input == "1") {Console.WriteLine(1)};
if (input == "2") {Console.WriteLine(1)};
if (input == "3") {Console.WriteLine(1)};
if (input == "4") {Console.WriteLine(1)};
if (input == "5") {Console.WriteLine(2)};
if (input == "6") {Console.WriteLine(2)};
if (input == "7") {Console.WriteLine(2)};
if (input == "8") {Console.WriteLine(2)};
``````

etc...

HTH

-
who would've thought about this? –  Amarghosh Nov 30 '09 at 15:36
Exactly, the other responses are over-engineered and needlessly complex. –  Jimberly Nov 30 '09 at 15:39
This is nice, but I need the values as part of a larger calculation. –  Nescio Nov 30 '09 at 15:40
So just wrap it in a method? Is this what you mean? –  Jimberly Nov 30 '09 at 15:42
Do you hand code every input/output pair for every function you write? –  FogleBird Nov 30 '09 at 15:57

It depends of the language you are using.

In VB.NET, you could do something like this :

``````for i as integer = 1 to 32
dim intAnswer as integer = 1 + (Math.Floor((i-1) / 4) mod 2)
' Do whatever you need to do with it
next
``````

It might sound complicated, but it's only because I put it into a sigle line.

-

In Groovy:

``````def codify = { i  ->
return  (((((i-1)/4).intValue()) %2 ) + 1)
}
``````

Then:

``````def list = 1..16
list.each {
println "\${it}: \${codify(it)}"
}
``````
-
``````char codify(char input)
{
return  (((input-1) & 0x04)>>2) + 1;
}
``````
-

Using Python:

``````output = 1
for i in range(1, 32+1):
print "%d. %d" % (i, output)
if i % 4 == 0:
output = output == 1 and 2 or 1
``````
-

JavaScript

My first thought was

``````output = ((input - 1 & 4) >> 2) + 1;
``````

but drhirsch's code works fine in JavaScript:

``````output = input - 1 & 4 ? 2 : 1;
``````

and the ridiculous (related to FogleBird's answer):

``````output = -~((input - 1) % 8 > 3);
``````
-

Java, using modulo operation ('%') to give the cyclic behaviour (0,1,2...7) and then a ternary if to 'round' to 1(?) or 2(:) depending on returned value. ...

`````` public static void main(String[] args) {
for (int i=1;i<=32;i++) {
System.out.println(i+"="+ (i%8<4?1:2) );
}
``````

Produces:

1=1 2=1 3=1 4=2 5=2 6=2 7=2 8=1 9=1 10=1 11=1 12=2 13=2 14=2 15=2 16=1 17=1 18=1 19=1 20=2 21=2 22=2 23=2 24=1 25=1 26=1 27=1 28=2 29=2 30=2 31=2 32=1

-