# Sorting alphabetically first, then numerically on a concatenated key

Given an array of Letter_Number combinations, how can I sort by letter first, then number:

``````( B_5   A_11   C_0   A_10    A_1 )
``````

to get:

``````( A_1   A_10   A_11   B_5    C_0 )
``````

?

-

By default, sort compares lexically. So if you want to treat the numbers as actual numbers where 010 > 1 and 2 < 11, then this is more like what you need:

``````my @list = qw(B_5 A_11 C_0 A_10 A_1);
my @sorted = sort char_then_num @list;

sub char_then_num {
my (\$a_char, \$a_num) = split '_', \$a;
my (\$b_char, \$b_num) = split '_', \$b;
return \$a_char cmp \$b_char
||
\$a_num <=> \$b_num;
}
``````
-
Perfect, thanks! –  LKramer Jul 11 '13 at 19:37
The disadvantage of this method is that it splits certain elements repeatedly, and more importantly, it has duplicate code. –  ikegami Jul 11 '13 at 19:38
@ikegami I think this is easier to read for people newer to perl, including me. –  kjprice Jul 11 '13 at 19:48
@ikegami I ran the sort both ways, using maps and using splits, using his 5 elements. Using the splits was faster by more than an order of magnitude. –  kjprice Jul 11 '13 at 19:49
@kjprice, gist.github.com/anonymous/5978996 Yours is actually a itsy fraction faster (not an order of magnitude, 10.0 microsecond vs 10.8 microsecond), even for somewhat longer lists. The overhead of ST is not making up the savings. –  ikegami Jul 11 '13 at 20:38
``````use Sort::Key::Natural qw( natsort );
my @sorted = natsort @data;
``````

Or if you wanted to avoid modules,

``````my @sorted =
map \$_->[0],
sort {  \$a->[1] cmp \$b->[1] || \$a->[2] <=> \$b->[2] }
map [ \$_, split /_/ ],
@data;
``````
-
Is the second one Schwartzian transform? –  doubleDown Jul 11 '13 at 19:45
Yes. It inflates each item with the split data, sorts on it, then deflates back to the original item. –  Oesor Jul 11 '13 at 20:17

Try the CPAN module Sort::Naturally.

-

Easy and efficient:

``````my @list = qw(B_5 A_11 C_0 A_10 A_2);

my @sorted = map \$_->[0], sort {\$a->[1] cmp \$b->[1] or \$a->[2] <=> \$b->[2]} map [\$_, split'_'], @list;
``````

Edit:

Using Schwartzian Transformation makes huge difference even for pretty small values:

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

use Benchmark qw( cmpthese );

our \$chars = join("","A".."Z");

sub genlist
{
my \$count = shift;
return map join("_", substr(\$chars, rand(26),1), int(rand(100))),
1 .. \$count;
}

sub nostcmp {
my (\$a_char, \$a_num) = split '_', \$a;
my (\$b_char, \$b_num) = split '_', \$b;
return \$a_char cmp \$b_char
||
\$a_num <=> \$b_num;
}

sub nost {
return sort nostcmp @_;
}

sub st {
return
map \$_->[0],
sort { \$a->[1] cmp \$b->[1] || \$a->[2] <=> \$b->[2] }
map [ \$_, split '_' ],
@_;
}

my %tests = (
nost => 'my @sorted = nost(@list);',
st   => 'my @sorted = st(@list);',
);

\$_ = 'use strict; use warnings; our @list; ' . \$_
for values %tests;

sub measure
{
my \$count = shift;
print "Count \$count:\n";
local our @list = genlist(\$count);
cmpthese(-3, \%tests);
print "\n";
}

measure \$_ for 5,10,20,50,100;
``````

And results:

``````Count 5:
Rate nost   st
nost  82195/s   -- -21%
st   103392/s  26%   --

Count 10:
Rate nost   st
nost 35430/s   -- -34%
st   53589/s  51%   --

Count 20:
Rate nost   st
nost 13228/s   -- -48%
st   25277/s  91%   --

Count 50:
Rate nost   st
nost 4157/s   -- -53%
st   8935/s 115%   --

Count 100:
Rate nost   st
nost 1637/s   -- -58%
st   3889/s 138%   --
``````
-
Looks familiar, hehe –  ikegami Jul 11 '13 at 19:39
You was faster ;-) We both know why and how use Schwartzian transformation. –  Hynek -Pichi- Vychodil Jul 11 '13 at 19:40
``````my @list = qw(B_5 A_11 C_0 A_10 A_1);
No, it's not. He just used wrong example. Here is counter example `qw(B_5 A_11 C_0 A_10 A_5)`. `A_5` should be first. –  Hynek -Pichi- Vychodil Jul 11 '13 at 19:28