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if (%hash){
     print "That was a true value!\n";
}

That will be true if (and only if) the hash has at least one key-value pair.

The actual result is an internal debugging string useful to the people who maintain Perl. It looks something like "4/16," but the value is guaranteed to be true when the hash is nonempty, and false when it's empty. --Llama book

What is this 4/16? Can anyone show me a small program from where I can see that the result is 4/16?

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I think "4/16" is just an example of a fraction. The book should have said "It is a fraction, for example 4/16 or 1/8." –  TLP Jul 17 '11 at 12:09
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5 Answers

up vote 20 down vote accepted

From perldoc perldata:

If you evaluate a hash in scalar context, it returns false if the hash is empty. If there are any key/value pairs, it returns true; more precisely, the value returned is a string consisting of the number of used buckets and the number of allocated buckets, separated by a slash. This is pretty much useful only to find out whether Perl's internal hashing algorithm is performing poorly on your data set. For example, you stick 10,000 things in a hash, but evaluating %HASH in scalar context reveals "1/16" , which means only one out of sixteen buckets has been touched, and presumably contains all 10,000 of your items.

so, 4/16 would be the buckets used/allocated count, and something like the following will display this value:

%hash = (1, 2);
print scalar(%hash); #prints 1/8 here
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A hash is an array of linked lists. A hashing function converts the key into a number which is used as the index of the array element ("bucket") into which to store the value. More than one key can hash to the same index ("collision"), so the linked lists handle this case.

The denominator of the fraction is the total number of buckets.

The numerator of the fraction is the number of buckets which has one or more elements.

For hashes with the same number of elements, the higher the number, the better. The one that returns 6/8 has fewer collisions than the one that returns 4/8.

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1  
This is a much more succinct way of putting it than my writing a bad implementation of a hash table to demonstrate what is going on. Bravo. –  Chas. Owens Jul 17 '11 at 18:14
    
@Chas. Owens, Thanks, I try –  ikegami Jul 18 '11 at 17:32
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This is a slightly modified version of an email I sent to the Perl Beginners mailing list answering this same question.

Saying

my $hash_info = %hash;

Will get you either 0 (if the hash is empty) or the ratio of used to total buckets. This information is almost, but not completely, useless to you. To understand what that means you must first understand how hashing works.

Lets implement a hash using Perl 5. The first thing we need is a hashing function. Hashing functions turn strings into, hopefully, unique numbers. Examples of real strong hashing functions are MD5 or SHA1, but they tend to be too slow for common use, so people tend to use weaker (i.e. ones that produce less unique output) functions for hash tables. Perl 5 uses Bob Jenkins [one-at-a-time] algorithm, which has a nice tradeoff of uniqueness to speed. For our example, I will use a very weak hashing function:

#!/usr/bin/perl

use strict;
use warnings;

sub weak_hash {
       my $key  = shift;
       my $hash = 1;
       #multiply every character in the string's ASCII/Unicode value together
       for my $character (split //, $key) {
               $hash *= ord $character;
       }
       return $hash;
}

for my $string (qw/cat dog hat/) {
       print "$string hashes to ", weak_hash($string), "\n";
}

Because hashing functions tend to give back numbers that are from a range larger than we want, you usually use modulo to reduce the range of numbers it gives back:

#!/usr/bin/perl

use strict;
use warnings;

sub weak_hash {
       my $key  = shift;
       my $hash = 1;
       #multiply every character in the string's ASCII/Unicode value together
       for my $character (split //, $key) {
               $hash *= ord $character;
       }
       return $hash;
}

for my $string (qw/cat dog hat/) {
       # the % operator is constraining the number
       # weak_hash returns to 0 - 10
       print "$string hashes to ", weak_hash($string) % 11, "\n";
}

Now that we have a hashing function, we need somewhere to save the key and value. This is called the hash table. The hash table is often an array whose elements are called buckets (these are the buckets that the ratio is talking about). A bucket will hold all of the key/value pairs that hash to the same number:

#!/usr/bin/perl

use strict;
use warnings;

sub weak_hash {
       my $key  = shift;
       my $hash = 1;
       for my $character (split //, $key) {
               $hash *= ord $character;
       }
       return $hash;
}

sub create {
       my ($size) = @_;

       my @hash_table;

       #set the size of the array
       $#hash_table = $size - 1;

       return \@hash_table;
}


sub store {
       my ($hash_table, $key, $value) = @_;

       #create an index into $hash_table
       #constrain it to the size of the hash_table
       my $hash_table_size = @$hash_table;
       my $index           = weak_hash($key) % $hash_table_size;

       #push the key/value pair onto the bucket at the index
       push @{$hash_table->[$index]}, {
               key   => $key,
               value => $value
       };

       return $value;
}

sub retrieve {
       my ($hash_table, $key) = @_;

       #create an index into $hash_table
       #constrain it to the size of the hash_table
       my $hash_table_size = @$hash_table;
       my $index           = weak_hash($key) % $hash_table_size;

       #get the bucket for this key/value pair
       my $bucket = $hash_table->[$index];

       #find the key/value pair in the bucket
       for my $pair (@$bucket) {
               return $pair->{value} if $pair->{key} eq $key;
       }

       #if key isn't in the bucket:
       return undef;
}

sub list_keys {
       my ($hash_table) = @_;

       my @keys;

       for my $bucket (@$hash_table) {
               for my $pair (@$bucket) {
                       push @keys, $pair->{key};
               }
       }

       return @keys;
}

sub print_hash_table {
       my ($hash_table) = @_;

       for my $i (0 .. $#$hash_table) {
               print "in bucket $i:\n";
               for my $pair (@{$hash_table->[$i]}) {
                       print "$pair->{key} => $pair->{value}\n";
               }
       }
}

my $hash_table = create(3);

my $i = 0;
for my $key (qw/a b c d g j/) {
       store($hash_table, $key, $i++);
}
print_hash_table($hash_table);

print "the a key holds: ", retrieve($hash_table, "a"), "\n";

As we can see from this example, it is possible for one bucket have more key/value pairs than the others. This is a bad situation to be in. It cause the hash to be slow for that bucket. This is one of the uses of the ratio of used to total buckets that hashes return in scalar context. If the hash says that only a few buckets are being used, but they are lots of keys in the hash, then you know you have a problem.

To learn more about hashes, ask questions here about what I have said, or read about them.

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Adding another answer because the first one is already too long.

Another approach to seeing what "4/16" means is to use the Hash::Esoteric module (warning alpha quality code). I wrote it to give me a better picture of what was going on inside of a hash so I could try to understand a performance problem that large hashes seem to have. The keys_by_bucket function from Hash::Esoteric will return all of the keys from a hash, but instead of returning them as a list like keys does, it returns them as an AoA where the top level represents buckets and the arrayref inside of it holds the keys in that bucket.

#!/user/bin/env perl

use strict;
use warnings;

use Hash::Esoteric qw/keys_by_bucket/;

my %hash = map { $_ => undef } "a" .. "g";
my $buckets = keys_by_bucket \%hash;

my $used;
for my $i (0 .. $#$buckets) {
    if (@{$buckets->[$i]}) {
        $used++;
    }
    print "bucket $i\n";
    for my $key (@{$buckets->[$i]}) {
        print "\t$key\n";
    }
}

print "scalar %hash: ", scalar %hash, "\n",
      "used/total buckets: $used/", scalar @$buckets, "\n";

The code above prints out something like (the actual data depends on the version of Perl) this:

bucket 0
    e
bucket 1
    c
bucket 2
    a
bucket 3
    g
    b
bucket 4
bucket 5
    d
bucket 6
    f
bucket 7
scalar %hash: 6/8
used/total buckets: 6/8
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Yes, I didn't understand what HvMAX returned (I thought it was the number of buckets, but it is really the index of the last bucket). The version on GitHub should now be correct. –  Chas. Owens Jul 17 '11 at 18:08
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That (%hash) evaluates the hash in a scalar context.

Here's an empty hash:

command_line_prompt> perl -le '%hash=(); print scalar %hash;'

The result is 0.

Here's a nonempty hash:

command_line_prompt> perl -le '%hash=(foo=>'bar'); print scalar %hash;'

The result is the string "1/8".

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That's not an answer. You're actually just restating the question. –  bart Oct 23 '12 at 6:49
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