# perl quick switch from quaternary to decimal

I'm representing nucleotides A,C,G,T as 0,1,2,3, and afterwards I need to translate the sequence representing as quaternary to decimal. Is there a way to achieve this in perl? I'm not sure if pack/unpack can do this or not.

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Please describe what you want more clearly and show us what you have tried! –  Jean Sep 20 '12 at 20:37
So you want `205` from `3031`? –  ikegami Sep 20 '12 at 20:45
Are you planning on having inputs longer than 8 digits? –  ikegami Sep 20 '12 at 20:46
Sorry, I meant 16 –  ikegami Sep 20 '12 at 21:15
Gotta ask why do you want to do this? –  ikegami Sep 20 '12 at 22:39

Base 4 requires exactly 2 bits, so it's easy to handle efficiently.

``````my \$uvsize = length(pack('J>', 0)) * 8;
my %base4to2 = map { \$_ => sprintf('%2b', \$_) } 0..3;

sub base4to10 {
my (\$s) = @_;
\$s =~ s/(.)/\$base4to2{\$1}/sg;
\$s = substr(("0" x \$uvsize) . \$s, -\$uvsize);
return unpack('J>', pack('B*', \$s));
}
``````

This allows inputs of 16 digits on builds supporting 32-bit integers, and 32 digits on builds supporting 64-bit integers.

It's possible to support slightly larger numbers using floating points: 26 on builds with IEEE doubles, 56 on builds with IEEE quads. This would require a different implementation.

Larger than that would require a module such as Math::BigInt for Perl to store them.

Faster and simpler:

``````my %base4to16 = (
'0' => '0',   '00' => '0',   '20' => '8',
'1' => '1',   '01' => '1',   '21' => '9',
'2' => '2',   '02' => '2',   '22' => 'A',
'3' => '3',   '03' => '3',   '23' => 'B',
'10' => '4',   '30' => 'C',
'11' => '5',   '31' => 'D',
'12' => '6',   '32' => 'E',
'13' => '7',   '33' => 'F',
);

sub base4to10 {
(my \$s = \$_[0]) =~ s/(..?)/\$base4to16{\$1}/sg;
return hex(\$s);
}
``````
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Note: This solution loses information on how many leading zero were present (but the OP said that was ok). –  ikegami Sep 20 '12 at 22:12
Added a faster and simpler solution. –  ikegami Sep 20 '12 at 22:36
It seems function hex(\$s) cannot deal with length greater than 16, right? –  lolibility Sep 21 '12 at 15:43
@lolibility, `hex` can't deal with numbers larger that than your Perl can support, and my post already details what numbers your Perl can support. An hour before I posted my answer, I asked how big of a number you need to deal with, and you still haven't answered... Please answer. –  ikegami Sep 21 '12 at 16:10
Sorry, didn't notice that, I probably going to deal with sequences consists of 32 nucleotides. And my perl and OS information "This is perl, v5.8.8 built for x86_64-linux-thread-multi" –  lolibility Sep 21 '12 at 16:35

I've never used it, but it looks like the Convert::BaseN module would be a good choice. Convert::BaseN - encoding and decoding of base{2,4,8,16,32,64} strings

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You do not quite get me. For the translate part is easy, use code like \$mysequence =~ tr/ACGT/0123/; but after translate, the sequence is represented by a string of numbers. but I want to covert them into a integer, since that string of numbers is quaternary, each digit can only be 0-3, unlike decimal, each digit can be 0-9. It's like a relationship of binary and decimal –  lolibility Sep 20 '12 at 21:18
That packs the string, but then you have to unpack them to decimal, so that's only half of an answer. –  ikegami Sep 20 '12 at 21:32

It is very simple to calculate a base-4 string to decimal by processing each digit in a loop

Note that, on 32-bit machines, you won't be able to represent a sequence longer than sixteen bases

This code shows the idea

``````use strict;
use warnings;

print seq2dec('ACGTACGTACGTACGT');

sub seq2dec{
my (\$sequence) = @_;
my \$n = 0;
for (map {index 'ACGT', \$_} split //, \$sequence) {
\$n = \$n * 4 + \$_;
}
return \$n;
}
``````

output

``````454761243
``````
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if my machine is 64 bit, then how long can I represent a sequence? –  lolibility Sep 20 '12 at 21:12
on a 64-bit platform you can represent 32 bases, but you would need 64-bit Perl installed. If you keep this as a string then you can store a sequence of indefinite length, but then may as well keep it encoded as ACGT characters –  Borodin Sep 20 '12 at 21:16
There is a problem here in that there is no way of keeping the length of the original sequence. `AAAAAAAAAA` is just zero in decimal, no matter how many bases there are in the sequence –  Borodin Sep 20 '12 at 21:24
That's Ok for me, all my sequence of DNA of one program run is the same length, so, do not worry about the same integer representing of A,AA,AAA,or A...A –  lolibility Sep 20 '12 at 21:27
What I care about is the speed of this, not sure if it's efficient if I use loop to do add up and power –  lolibility Sep 20 '12 at 21:30