Provided by: libstatistics-basic-perl_1.6611-1_all bug

NAME

       Statistics::Basic::LeastSquareFit - find the least square fit for two lists

SYNOPSIS

       A machine to calculate the Least Square Fit of given vectors x and y.

       The module returns the alpha and beta filling this formula:

           $y = $beta * $x + $alpha

       for a given set of x and y co-ordinate pairs.

       Say you have the set of Cartesian coordinates:

           my @points = ( [1,1], [2,2], [3,3], [4,4] );

       The simplest way to find the LSF is as follows:

           my $lsf = lsf()->set_size(int @points);
              $lsf->insert(@$_) for @points;

       Or this way:

           my $xv  = vector( map {$_->[0]} @points );
           my $yv  = vector( map {$_->[1]} @points );
           my $lsf = lsf($xv, $yv);

       And then either query the values or print them like so:

           print "The LSF for $xv and $yv: $lsf\n";
           my ($yint, $slope) =
           my ($alpha, $beta) = $lsf->query;

       LSF is meant for finding a line of best fit.  $beta is the slope of the line and $alpha is
       the y-offset.  Suppose you want to draw the line.  Use these to calculate the "x" for a
       given "y" or vice versa:

           my $y = $lsf->y_given_x( 7 );
           my $x = $lsf->x_given_y( 7 );

       (Note that "x_given_y()" can sometimes produce a divide-by-zero error since it has to
       divide by the $beta.)

       Create a 20 point "moving" LSF like so:

           use Statistics::Basic qw(:all nofill);

           my $sth = $dbh->prepare("select x,y from points where something");
           my $len = 20;
           my $lsf = lsf()->set_size($len);

           $sth->execute or die $dbh->errstr;
           $sth->bind_columns( my ($x, $y) ) or die $dbh->errstr;

           my $count = $len;
           while( $sth->fetch ) {
               $lsf->insert( $x, $y );
               if( defined( my ($yint, $slope) = $lsf->query ) {
                   print "LSF: y= $slope*x + $yint\n";
               }

               # This would also work:
               # print "$lsf\n" if $lsf->query_filled;
           }

METHODS

       This list of methods skips the methods inherited from Statistics::Basic::_TwoVectorBase
       (things like insert(), and ginsert()).

       new()
           Create a new Statistics::Basic::LeastSquareFit object.  This function takes two
           arguments -- which can either be arrayrefs or Statistics::Basic::Vector objects.  This
           function is called when the leastsquarefirt() shortcut-function is called.

       query()
           LSF is meant for finding a line of best fit.  $beta is the slope of the line and
           $alpha is the y-offset.

               my ($alpha, $beta) = $lsf->query;

       y_given_x()
           Automatically calculate the y-value on the line for a given x-value.

               my $y = $lsf->y_given_x( 7 );

       x_given_y()
           Automatically calculate the x-value on the line for a given y-value.

               my $x = $lsf->x_given_y( 7 );

           "x_given_y()" can sometimes produce a divide-by-zero error since it has to divide by
           the $beta.  This might be helpful:

               if( defined( my $x = eval { $lsf->x_given_y(7) } ) ) {
                   warn "there is no x value for 7";

               } else {
                   print "x (given y=7): $x\n";
               }

       query_vector1()
           Return the Statistics::Basic::Vector for the first vector used in the computation of
           alpha and beta.

       query_vector2()
           Return the Statistics::Basic::Vector object for the second vector used in the
           computation of alpha and beta.

       query_mean1()
           Returns the Statistics::Basic::Mean object for the first vector used in the
           computation of alpha and beta.

       query_variance1()
           Returns the Statistics::Basic::Variance object for the first vector used in the
           computation of alpha and beta.

       query_covariance()
           Returns the Statistics::Basic::Covariance object used in the computation of alpha and
           beta.

OVERLOADS

       This object is overloaded.  It tries to return an appropriate string for the calculation,
       but raises an error in numeric context.

       In boolean context, this object is always true (even when empty).

AUTHOR

       Paul Miller "<jettero@cpan.org>"

COPYRIGHT

       Copyright 2012 Paul Miller -- Licensed under the LGPL

SEE ALSO

       perl(1), Statistics::Basic, Statistics::Basic::_TwoVectorBase, Statistics::Basic::Vector