# How to invert an array?

In this script

``````#!/usr/bin/perl -w

use strict;

my @ar = (1,2,10,3,5);

@ar = sort {\$a <=> \$b} @ar;
``````

does `@ar` now contain `(1,2,3,5,10)`.

Now would I like to get the inverse array i.e. `(4,6,7,8,9)`.

Any suggestions how that can be done?

-

## 7 Answers

When working with set operations, hashes work well:

``````my %have = map {\$_ => 1} @ar;

my @inv  = grep {not \$have{\$_}} 1 .. 10;

print "@inv\n"; # 4 6 7 8 9
``````

If you will not know the bounds before hand, and would like to determine them from the min/max of `@ar`, since its sorted that becomes easy:

``````my @inv = grep {not \$have{\$_}} \$ar[0] .. \$ar[-1];
``````
-

This is a good application for smart matching:

``````  @inverse = grep { ! (\$_ ~~ @ar) } 1..10;
``````

Selects all values between 1 and 10 that are not in `@ar`.

-
This is ok as long as `@ar` isn't too big. Smart matching has to use sequential search when matching against an array. – cjm Jan 15 '11 at 5:15
+1 Because, well, I like it. But as cjm has pointed out, it's `O(n*k)` where `n` represents the number of items in the input (`@ar`) and `k` the total length to invert (`1..10`). – user166390 Jan 15 '11 at 7:04

Acme::Tools

``````use warnings;
use strict;
use Acme::Tools qw(minus);

my @ar = (1,2,10,3,5);
@ar = sort {\$a <=> \$b} @ar;
my @all = 1..10;
my @inv = minus( \@all, \@ar );
print "@ar\n";
print "@inv\n";
``````
-

Since you know the array is sorted, there's only 1 value you need to be comparing against at any given time, so you could do this:

``````my @ar = (1,2,10,3,5);

@ar = sort {\$a <=> \$b} @ar;

my @inverse = do {
my \$i = 0;
grep { \$_ != \$ar[\$i] or (++\$i, 0) } 1 .. \$ar[-1]
};
``````

As written here, you don't need a check for `\$i` going off the end of the array, because the range ends at `\$ar[-1]`. If you change that condition, then you would need to check for `\$i > \$#ar`, or just push N+1 onto `@ar` before computing the inverse and pop it off afterward (where N is the maximum value of the range). This code also assumes there won't be any duplicate values in the array.

I decided to benchmark the leading candidates, using 5,000 numbers between 1-10,000:

``````use 5.010;
use Benchmark 'cmpthese';

my (@orig, %used);
while (@orig < 5000) {
my \$rand = 1 + int rand 10000;
push @orig, \$rand unless \$used{\$rand}++;
}

my @ar = sort {\$a <=> \$b} @orig;

cmpthese(-3, {
sorted => sub {
push @ar, 10001;
my @inverse = do {
my \$i = 0;
grep { \$_ != \$ar[\$i] or (++\$i, 0) } 1 .. 10000
};
pop @ar;
},

unsorted => sub {
@ar = sort {\$a <=> \$b} @orig;

push @ar, 10001;
my @inverse = do {
my \$i = 0;
grep { \$_ != \$ar[\$i] or (++\$i, 0) } 1 .. 10000
};
pop @ar;
},

hash => sub {
my %have = map {\$_ => 1} @ar;

my @inverse = grep {not \$have{\$_}} 1 .. 10000;
},

smartmatch => sub {
my @inverse = grep { ! (\$_ ~~ @ar) } 1 .. 10000;
},
});
``````

On Perl 5.10.1, I got:

``````              Rate smartmatch       hash   unsorted     sorted
smartmatch 0.708/s         --      -100%      -100%      -100%
hash         180/s     25279%         --        -7%       -67%
unsorted     193/s     27183%         8%         --       -65%
sorted       551/s     77745%       207%       185%         --
``````

As you can see, repeatedly smart matching against an array is slow. My approach is roughly the same speed as the hash-based approach, if you include the time it takes to sort `@ar`. If you discount that (perhaps you have to sort `@ar` anyway for other reasons), then my approach is about twice as fast as the hash.

-
Not as idiomatic, but very inventive! +1 – DVK Jan 15 '11 at 14:12

My Perl is a little rusty but here's the basic idea.

``````# Put the contents of `@ar` into the keys
# of a temporary hash variable (to make lookups easy)
my %temp_hash = %{{ map { \$_ => 1 } @ar }};

# Then use a `for` loop starting at the first value
# in `@ar` and ending at the last value:
for (my \$i = \$ar[0]; \$i <= \$ar[\$#ar-1]; \$i++) {
# For each value of your loop counter,
# check whether that value exists as a key
# in your temporary hash variable.
# If it doesn't, push it on to your inverse array:
push @inverse_array, \$i if (not exists \$temp_hash{\$i});
}
``````

Job done!

-

Here is a solution using Set::IntSpan.

``````#!/usr/bin/perl
use strict;
use warnings;
use Set::IntSpan;

my @ar = (1,2,10,3,5);
@ar = sort {\$a <=> \$b} @ar;

# min - max of given set
my \$range = Set::IntSpan->new( "\$ar[0]-\$ar[-1]" );
# members of set
my \$used  = Set::IntSpan->new( @ar );

# Calculates the missing numbers
my \$unused = \$range->diff( \$used );

print join " ", \$unused->elements;
``````
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Simply

``````@inv = sort {\$b <=> \$a} @ar;
``````

If you want to invert a random non-sorted array:

``````my @inv;
while(scalar @ar){
push @inv pop @ar;
}
``````
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This is the wrong kind of "invert". And if you did want to reverse the array like this, you should use the reverse function. – cjm Jan 15 '11 at 19:42