#!/usr/bin/perl
use strict;
use warnings;
my $stats = new StatisticsDescriptiveDiscretized;
#some random test data
my @data = qw(2 7 5 1 13 1 10 6 4 1 4 7 11 6 10 15 0 6 7 8);
$stats->add_data(@data);
print "count = ",$stats->count(),"\n";
print "uniq = ",$stats->uniq(),"\n";
print "sum = ",$stats->sum(),"\n";
print "min = ",$stats->min(),"\n";
print "max = ",$stats->max(),"\n";
print "mean = ",$stats->mean(),"\n";
print "standard_deviation = ",$stats->standard_deviation(),"\n";
print "variance = ",$stats->variance(),"\n";
print "sample_range = ",$stats->sample_range(),"\n";
print "mode = ",$stats->mode(),"\n";
print "median = ",$stats->median(),"\n";
#print out the frequency distribution
print "\nvalue\t\tfrequency\n";
print "-"x20,"\n";
my %histogram = $stats->frequency_distribution(5);
print "$_\t\t$histogram{$_}\n" foreach (sort {$a <=> $b} keys %histogram);
BEGIN {
package StatisticsDescriptiveDiscretized;
### This module draws heavily from Statistics::Descriptive
use strict;
use warnings;
use Carp;
use vars qw($VERSION $REVISION $AUTOLOAD $DEBUG %autosubs);
$VERSION = '0.1';
$REVISION = '$Revision: 1.17 $';
$DEBUG = 0;
#what subs can be autoloaded?
%autosubs = (
count => undef,
mean => undef,
sum => undef,
uniq => undef,
mode => undef,
median => undef,
min => undef,
max => undef,
standard_deviation => undef,
sample_range => undef,
variance => undef,
);
sub new
{
my $proto = shift;
my $class = ref($proto) || $proto;
my $self = {};
$self->{permitted} = \%autosubs;
$self->{data} = ();
$self->{dirty} = 1; #is the data dirty?
bless ($self,$class);
print __PACKAGE__,"->new(",join(',',@_),")\n" if $DEBUG;
return $self;
}
sub add_data
{
#add data but don't compute ANY statistics yet
my $self = shift;
print __PACKAGE__,"->add_data(",join(',',@_),")\n" if $DEBUG;
#get each element and add 0 to force it be a number
#that way, 0.000 and 0 are treated the same
my $val = shift;
while (defined $val)
{
$val += 0;
$self->{data}{$val}++;
#set dirty flag so we know cached stats are invalid
$self->{dirty}++;
$val = shift; #get next element
}
}
sub _all_stats
{
#compute all the stats in one sub to save overhead of sub calls
#a little wasteful to do this if all we want is count or sum for example but
#I want to keep add_data as lean as possible since it gets called a lot
my $self = shift;
print __PACKAGE__,"->_all_stats(",join(',',@_),")\n" if $DEBUG;
#count = total number of data values we have
my $count = 0;
$count += $_ foreach (values %{$self->{data}});
#uniq = number of unique data values
my $uniq = keys %{$self->{data}};
#initialize min, max, mode to an arbitrary value that's in the hash
my $default = (keys %{$self->{data}})[0];
my $max = $default;
my $min = $default;
my $mode = $default;
my $moden = 0;
my $sum = 0;
#find min, max, sum, and mode
foreach (keys %{$self->{data}})
{
my $n = $self->{data}{$_};
$sum += $_ * $n;
$min = $_ if $_ < $min;
$max = $_ if $_ > $max;
#only finds one mode but there could be more than one
#also, there might not be any mode (all the same frequency)
#todo: need to make this more robust
if ($n > $moden)
{
$mode = $_;
$moden = $n;
}
}
my $mean = $sum/$count;
my $stddev = 0;
my $variance = 0;
if ($count > 1)
{
foreach my $val (keys %{$self->{data}})
{
#how many times the square of the value
$stddev += $self->{data}{$val} * $val * $val;
}
$variance = ($stddev - $count*$mean*$mean)/($count - 1);
$stddev = sqrt($variance);
}
else {$stddev = undef}
#find median, and do it without creating a list of the all the data points
#if n=count is odd and n=2k+1 then median = data(k+1)
#if n=count is even and n=2k, then median = (data(k) + data(k+1))/2
my $odd = $count % 2; #odd or even number of points?
my $even = !$odd;
my $k = $odd ? ($count-1)/2 : $count/2;
my $median = undef;
my $temp = 0;
MEDIAN: foreach my $val (sort {$a <=> $b} (keys %{$self->{data}}))
{
foreach (1..$self->{data}{$val})
{
$temp++;
if (($temp == $k) && $even)
{
$median += $val;
}
elsif ($temp == $k+1)
{
$median += $val;
$median /= 2 if $even;
last MEDIAN;
}
}
}
$self->{count} = $count;
$self->{uniq} = $uniq;
$self->{sum} = $sum;
$self->{standard_deviation} = $stddev;
$self->{variance} = $variance;
$self->{min} = $min;
$self->{max} = $max;
$self->{sample_range} = $max - $min;
$self->{mean} = $mean;
$self->{median} = $median;
$self->{mode} = $mode;
$self->{dirty} = 0;
}
sub get_data
{
#returns a list of the data in sorted order
#the list could be very big an this defeat the purpose of using this module
#use this only if you really need it
my $self = shift;
print __PACKAGE__,"->get_data(",join(',',@_),")\n" if $DEBUG;
my @data;
foreach my $val (sort {$a <=> $b} (keys %{$self->{data}}))
{
push @data, $val foreach (1..$self->{data}{$val});
}
return @data;
}
sub frequency_distribution
{
#Compute frequency distribution (histogram), borrowed heavily from Statistics::Descriptive
#Behavior is slightly different than Statistics::Descriptive
#e.g. if partition is not specified, we use uniq to set the number of partitions
# if partition = 0, then we return the data hash WITHOUT binning it into equal bins
#Why? because I like it this way -- I often want to just see how many of each value I saw
#Also, you can manually pass in the bin info (min bin, bin size, and number of partitions)
#I don't cache the frequency data like Statistics::Descriptive does since it's not as expensive to compute
#but I might add that later
#todo: the minbin/binsize stuff is funky and not intuitive -- fix it
my $self = shift;
print __PACKAGE__,"->frequency_distribution(",join(',',@_),")\n" if $DEBUG;
my $partitions = shift; #how many partitions (bins)?
my $minbin = shift; #upper bound of first bin
my $binsize = shift; #how wide is each bin?
#if partition == 0, then just give 'em the data hash
if (defined $partitions && ($partitions == 0))
{
$self->{frequency_partitions} = 0;
%{$self->{frequency}} = %{$self->{data}};
return %{$self->{frequency}};
}
#otherwise, partition better be >= 1
return undef unless $partitions >= 1;
$self->_all_stats() if $self->{dirty}; #recompute stats if dirty, (so we have count)
return undef if $self->{count} < 2; #must have at least 2 values
#set up the bins
my ($interval, $iter, $max);
if (defined $minbin && defined $binsize)
{
$iter = $minbin;
$max = $minbin+$partitions*$binsize - $binsize;
$interval = $binsize;
$iter -= $interval; #so that loop that sets up bins works correctly
}
else
{
$iter = $self->{min};
$max = $self->{max};
$interval = $self->{sample_range}/$partitions;
}
my @k;
my %bins;
while (($iter += $interval) < $max)
{
$bins{$iter} = 0;
push @k, $iter;
}
$bins{$max} = 0;
push @k, $max;
VALUE: foreach my $val (keys %{$self->{data}})
{
foreach my $k (@k)
{
if ($val <= $k)
{
$bins{$k} += $self->{data}{$val}; #how many of this value do we have?
next VALUE;
}
}
}
%{$self->{frequency}} = %bins;
$self->{frequency_partitions} = $partitions; #in case I add caching in the future
return %{$self->{frequency}};
}
sub AUTOLOAD {
my $self = shift;
my $type = ref($self)
or croak "$self is not an object";
my $name = $AUTOLOAD;
$name =~ s/.*://; ##Strip fully qualified-package portion
return if $name eq "DESTROY";
unless (exists $self->{permitted}{$name} ) {
croak "Can't access `$name' field in class $type";
}
print __PACKAGE__,"->AUTOLOAD $name\n" if $DEBUG;
#compute stats if necessary
$self->_all_stats() if $self->{dirty};
return $self->{$name};
}
1;
} #BEGIN
__END__
=head1 NAME
StatisticsDescriptiveDiscretized -- any ideas for a better name?
=head1 SYNOPSIS
use StatisticsDescriptiveDiscretized;
my $stats = new StatisticsDescriptiveDiscretized;
$stats->add_data(1,10,2,0,1,4,5,1,10,8,7);
print "count = ",$stats->count(),"\n";
print "uniq = ",$stats->uniq(),"\n";
print "sum = ",$stats->sum(),"\n";
print "min = ",$stats->min(),"\n";
print "max = ",$stats->max(),"\n";
print "mean = ",$stats->mean(),"\n";
print "standard_deviation = ",$stats->standard_deviation(),"\n";
print "variance = ",$stats->variance(),"\n";
print "sample_range = ",$stats->sample_range(),"\n";
print "mode = ",$stats->mode(),"\n";
print "median = ",$stats->median(),"\n";
=head1 DESCRIPTION
This module provides basic functions used in descriptive statistics.
It borrows very heavily from Statistics::Descriptive::Full with one major
difference. This module is optimized for discretized data (anyone
know a better word for that?) e.g. data from an A/D converter that
has a discrete set of possible values. E.g. if your data is produced
by an 8 bit A/D then you'd have only 256 possible values in your data
set. Even though you might have a million data points, you'd only have
256 different values in those million points. Instead of storing the
entire data set as Statistics::Descriptive does, this module only stores
the values it's seen and the number of times it's seen each value.
For very large data sets, this storage method results in significant speed
and memory improvements. In a test case with 2.6 million data points from
a real world application, StatisticsDescriptiveDiscretized took 40 seconds
to calculate a set of statistics instead of the 561 seconds required by
Statistics::Descriptive::Full. It also required only 6MB of RAM instead of
the 400MB used by Statistics::Descriptive::Full.
=head1 NOTE
This module is incomplete and not fully tested. It's currently only alpha
code so use at your own risk.
=head1 AUTHOR
Rhet Turnbull, RhetTbull on perlmonks.org
=head1 COPYRIGHT
Copyright (c) 2002 Rhet Turnbull. All rights reserved. This
program is free software; you can redistribute it and/or modify it
under the same terms as Perl itself.
Portions of this code is from Statistics::Descriptive which is under
the following copyrights:
Copyright (c) 1997,1998 Colin Kuskie. All rights reserved. This
program is free software; you can redistribute it and/or modify it
under the same terms as Perl itself.
Copyright (c) 1998 Andrea Spinelli. All rights reserved. This program
is free software; you can redistribute it and/or modify it under the
same terms as Perl itself.
Copyright (c) 1994,1995 Jason Kastner. All rights
reserved. This program is free software; you can redistribute it
and/or modify it under the same terms as Perl itself.