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Data::Range::Compare(3) User Contributed Perl Documentation Data::Range::Compare(3)

Data::Range::Compare - Find gaps & intersections in lists of ranges

  use Data::Range::Compare qw(HELPER_CB);

  my %helper=HELPER_CB;

  my @tom;
  my @harry;
  my @sally;

  push @tom,Data::Range::Compare->new(\%helper,0,1);
  push @tom,Data::Range::Compare->new(\%helper,3,7);

  push @harry,Data::Range::Compare->new(\%helper,9,11);

  push @sally,Data::Range::Compare->new(\%helper,6,7);

  my @cmp=(\@tom,\@harry,\@sally);

  my $sub=Data::Range::Compare->range_compare(\%helper,\@cmp);
  while(my @row=$sub->()) {
    my $common_range=
      Data::Range::Compare->get_common_range(\%helper,\@row);
    print "Common Range: $common_range\n";
    my ($tom,$harry,$sally)=@row;
    print "tom:   $tom\n";
    print "harry: $harry\n";
    print "sally: $sally\n";
  }

This package provides a universal framework for calculating the intersections and gaps in/of 2 dimensional ranges.

In order to use this package on your data, you will need to create 3 subroutines to handle computations of your data.
  • Compare start and end values

    Objects that make up the start and end of your range can be made up of any object in PERL that can be represented in a scalar context.

    Lets say we want to compute the intersection of the following numeric ranges.

      Example:
    
        Range list a:
    
         1) 1 to 2
         2) 2 to 3
    
        Range list b:
    
         1) 0 to 1
         2) 2 to 7
    
        So lets create our subroutine to compare values.
    
        sub compare_two_values ($$)
        {
           my ($value_a,$value_b)=@_;
           return $value_a <=> $value_b;
        }
    
    
        This subroutine will safely compare the start and or 
        end values of our ranges.
        

    But what happens if we want to compare ranges that are represented by letters of the alphabet?

      Example:
    
        Range list a:
    
         1) b to c
         2) c to d
    
        Range list b:
    
         1) a to b
         2) c to h
    
       So lets create a subroutine that can compare the start and end 
       values of our ranges.
    
        sub compare_two_values ($$)
        {
           my ($value_a,$value_b)=@_;
           return $value_a cmp $value_b;
        }
    
        Note: This subroutine is slightly different than our original 
        subroutine as we have swapped out the "<=>" operator for the 
        "cmp" operator.  This subroutine will now safely compare the 
        start and end value of our ranges.
        
  • Computing the Next value

    Since we can now compare start and end values of our ranges we need to be able to compute the next value.

    Given our numeric ranges from the "Compare start and end values" it's very simple to create a subroutine to compute the next value.

    Example:

      Now we need to create a subroutine to compute the next given
      value from a start or end range value.
    
        Range list a:
    
         1) 1 to 2
         2) 2 to 3
    
        Range list b:
    
         1) 0 to 1
         2) 2 to 7
    
       A subroutine that can compute the next value in the case of
       numeric ranges is as simple as creating a subroutine that just
       adds 1 to what ever number is passed into the subroutine.
    
       sub add_one ($) 
       {
         return $_[0] + 1;
       }
    
       So if we wanted to compute the start of the next range for 
       set a - 1 we would get a return value of 3.
        

    But what about our ranges represented in letters of the alphabet? Since we can't simply add one to compute the value of the start of the next range, we will have to create some code that can compute the next letter of the alphabet.

    Example:

        Range list a:
    
         1) b to c
         2) c to d
    
        Range list b:
    
         1) a to b
         2) c to h
    
      sub my_add_one {
        my @list=('a' .. 'z');
        my $id=-1; 
        my %ids=map { ($_,++$id) } @list;
    
        my $here=$ids{$_[0]};
        ++$here;
        return 'z' if $#list<$here;
        $list[$here]
      }
    
    
      This subroutine can now compute the beginning of the next range.
      So if we wanted to compute the start of the next range for 
      set a - 1 we would get a return value of d.
        
  • Computing the Previous value

    Now that we can compare range start/end values and compute the next value from a start or end value we need to be able to calculate a previous value.

    Example:

        Range list a:
    
         1) 1 to 2
         2) 2 to 3
    
        Range list b:
    
         1) 0 to 1
         2) 2 to 7
    
      Once again creating a subroutine to compute the previous value
      based on a start or end value is very easy when we are dealing
      with numeric ranges.
    
      sub calculate_previous_value ($) { 
        return $_[0] -1;
      }
    
      Given set a - 1 start value our return value would be 0.
        

    Once again this works fine for numeric ranges, but how would we calculate the previous start or end value for a range represented by letters of the alphabet?

    Example:

        Range list a:
    
         1) b to c
         2) c to d
    
        Range list b:
    
         1) a to b
         2) c to h
    
      sub my_sub_one {
        # a-z example
        my @list=('a' .. 'z');
        my $id=-1; 
        my %ids=map { ($_,++$id) } @list;
    
        my $here=$ids{$_[0]};
        --$here;
        return 'z' if 0>$here;
        $list[$here]
      }
    
      So given set a - 1 our return value would be a.
        

Putting it all together in %helper

%helper is the primary driver for this framework.

Data::Range::Compare relies on %helper to do its internal work. So this section explains how to populate %helper.

  # to import the default %helper subroutines into your package
  use Data::Range::Compare qw(:HELPER);

  my %helper=(
    add_one=>\&add_one
    sub_one=>\&sub_one
    cmp_values=>\&cmp_values
  );
  • add_one

    This subroutine accepts one argument and returns the next object. If you are implementing your own add_one, just make sure it returns the correct next value for your data.

      Example:
    
      $helper{add_one}=sub {$_[0] + 1};
      my $next=$helper{add_one}->(1);
      $next==2;
    
      Same as
    
      %helper=HELPER_CB;
    
      Or Write your own
    
      # a-z example
      my @list=('a' .. 'z');
      my $id=-1; 
      my %ids=map { ($_,++$id) } @list;
    
      sub my_add_one {
        my $here=$ids{$_[0]};
        ++$here;
        return 'z' if $#list<$here;
        $list[$here]
      }
    
      $helper{add_one}=\&my_add_one;
      my $next=$helper{add_one}->('a');
      $next eq 'b';
        
  • sub_one

    This subroutine accepts one argument and returns the next object. If you are implementing your own sub_one, just make sure it returns the correct previous value for your data.

      Example:
    
      $helper{sub_one}=sub {$_[0] - 1};
      my $next=$helper{sub_one}->(1);
      $next==0;
    
      Same as
    
      %helper=HELPER_CB;
    
      Or Write your own
    
      # a-z example
      my @list=('a' .. 'z');
      my $id=-1; 
      my %ids=map { ($_,++$id) } @list;
    
      sub my_sub_one {
        my $here=$ids{$_[0]};
        --$here;
        return 'z' if 0>$here;
        $list[$here]
      }
    
      $helper{sub_one}=\&my_sub_one;
      my $next=$helper{sub_one}->('a');
      $next eq 'b';
        
  • cmp_values

    This subroutine accepts 2 arguments and should return one of the following values: 0,-1,1

    Examples:

      $helper{cmp_values}=sub {$_[0] <=> $_[1] };
      my $cmp=$helper{cmp_values}->(0,1);
      $cmp==-1;
    
      Same as
    
      %helper=HELPER_CB;
    
      Or Write your own
    
      # a-z example
      $helper{cmp_values}=sub {$_[0] cmp $_[1] };
      my $cmp=$helper{cmp_values}->(qw(a b));
      $cmp==-1;
        

In order to compare lists of ranges for intersections, you will need to create a list of lists containing Data::Range::Compare Objects.

Example:

  my %helper=HELPER_CB;

  my @list_a=(
    Data::Range::Compare->new(\%helper,1,2)
    ,Data::Range::Compare->new(\%helper,2,3)
  );
  my @list_b=(
    Data::Range::Compare->new(\%helper,0,1)
    ,Data::Range::Compare->new(\%helper,4,7)
  );

  my @compaire_all=(\@list_a,\@list_b);

Once the list of list references has been created it is possible to compare the list of ranges.

Example:

  my $cmp=Data::Range::Compare->range_compare(
      \%helper
      ,\@compaire_all
  );

The above creates an anonymous subroutine that can iterate through the list of ranges.

Example:

  while(my ($column_a,$column_b) = $cmp->() ) {
    my $common=Data::Range::Compare->get_common_range(
      \%helper
        ,[
          $column_a
          ,$column_b
        ]
    );

    print "\nCommon Range: ",$common,"\n";
    if($column_a->missing) {
      print "Not in set a";
    } else {
      print $column_a
    }
    print " , ";
    if($column_b->missing) {
      print "Not in set b";
    } else {
      print $column_b
    }
    print "\n";
  }

Output:

  Common Range: 0 - 0
  Not in set a , 0 - 1

  Common Range: 1 - 1
  1 - 3 , 0 - 1

  Common Range: 2 - 3
  1 - 3 , Not in set b

  Common Range: 4 - 7
  Not in set a , 4 - 7

In the loop we check to see if any of our ranges were found in our sets of data. In this case the following ranges were not shared in both sets of data.

  0 - 0
  2 - 3
  4 - 7

Our only intersecting range was

  1 - 1

The anonymous subroutine does not actually skip over ranges that were not in both sets of data. Instead it creates a new missing range that represents the gap from that set of data.

If we just wish to see the intersecting sets of data we need to change our while loop just a little bit.

  while(my ($column_a,$column_b) = $cmp->() ) {
    next if $column_a->missing;
    next if $column_b->missing;
    my $common=Data::Range::Compare->get_common_range(
      \%helper
        ,[
          $column_a
          ,$column_b
        ]
    );
    print "Column_a and Column_b intersect at: ",$common,"\n";
  }

  Output:

  Column_a and Column_b intersect at: 1 - 1

As noted when looking at our data, the only intersecting range was "1 - 1" between @list_a and @list_b.

This section covers the OO Methods in the package.
  • my $range=new Data::Range::Compare(\%helper,0,1);
  • my $range=new Data::Range::Compare(\%helper,0,1,$generated);
  • my $range=new Data::Range::Compare(\%helper, 0, 1, $generated, $missing);
  • my $range=Data::Range::Compare->new(\%helper,0,1);
  • my $range=Data::Range::Compare->new(\%helper,0,1,$generated);
  • my $range=Data::Range::Compare->new(\%helper,0,1,$generated,$missing);

    This subroutine acts as the general package constructor. "$generated" represents the $range->generated state. "$missing" represents the $range->missing state.

    %helper is what drives the internals of our instance.

  • my $value=$range->helper_cb('add_one',1)
  • my $value=$range->helper_cb('sub_one',1)
  • my $value=$range->helper_cb('cmp_values',1,1)

    Grants access to this range's \%helper.

  • my $range_end=$range->range_end;

    Returns the "object" that is denoted as the end of this range.

  • my $range_start=$range->range_start;

    Returns the "object" that is denoted as the start of this range.

  • my $notation=$range->notation;

    Returns a string representing "range_start - range_end". This is the same as print $range.

  • my $helper_hash=$range->helper_hash;

    Gets the \%helper for this instance.

  • if($range->missing) { .. }

    Returns the missing state

  • if($range->generated) { .. }

    Returns the generated state

  • $range->data->{some_lable}='some value'
  • my $value=$range->data->{some_lable};
  • my $hash_ref=$range->data;

    Lets you tag this block with your data.

  • if($range->overlap($another_range)) { .. }

    Returns true if either of these ranges overlap.

  • if($range->contains_value($some_value)) { .. }

    Returns true if this value is between the start and end values for this range.

  • my $list=$range->grep_overlap(\@list_of_ranges);

    Returns an anonymouse array of ranges from @list_of_ranges that overlap with this ragne.

  • my $list=$range->grep_nonoverlap(\@list_of_ranges);

    Returns an anonymouse array of ranges from @list_of_ranges that do not overlap with this range.

  • my $next_start=$range->next_range_start;

    Gets the object that represents the start of the next range.

  • my $previous_end=$range->previous_range_end;

    Gets the object that represents the end of the previous range.

  • my $cmp=$range->cmp_range_start($range_b);

    Wrapper subroutine does the same as the following.

      my $cmp=$range->helper_cb(
        'cmp_values'
        ,$range->range_start
        ,$range_b->range_start
      );
        
  • my $cmp=$range->cmp_range_end($range_b);

    Wrapper subroutine does the same as the following.

      my $cmp=$range->helper_cb(
        'cmp_values'
        ,$range->range_end
        ,$range_b->range_end
      );
        
  • if($range_a->contiguous_check($range_b) { ... }

    Returns true if $range_b immediately follows $range_a

  • my $cmp=$range->cmp_ranges($range_b);

    Does an an ascending order style comparison.

  • my $common=Data::Range::Compare->get_common_range(\%helper,\@list)

    Returns a new Data::Range::Compare object representing the intersecting ranges ranges found in \@list.

  • my $range=Data::Range::Compare->get_overlapping_range( \%helper, \@list );

    Returns a new Data::Range::Compare object representing the outer most start and end found in \@list.

  • my $ref=Data::Range::Compare->consolidate_ranges(\%helper,\@list);

    Returns a list reference of sorted and consolidated Data::Range::Compare objects .

  • my $ref=Data::Range::Compare->fill_missing_ranges(\%helper,\@list);
  • my $ref=Data::Range::Compare->fill_missing_ranges(\%helper, \@list, consolidate_ranges=>0);
  • my $ref=Data::Range::Compare->fill_missing_ranges(\%helper, \@list, consolidate_ranges=>1);

    Returns a sorted contiguous list of Data::Range::Compare objects. All objects generated by fill_missing_ranges are created as missing and generated.

    Optional argument consolidate_ranges=>(0||1)

      consolidate_ranges=>1 
        calls Data::Range::Compare->consolidate_ranges(\%helper,\@list)
        before processing ranges
    
      consolidate_ranges=>0 ( Default )
        Skips the consolidate pass
        
  • my $ref=Data::Range::Compare->range_start_end_fill( \%helper, \@list_of_lists);

    Creates filler ranges ensuring each list of ranges starts and ends with the same value. All ranges created by range_start_end_fill are missing and generated.

  • my $sub=Data::Range::Compare->range_compare( \%helper, \@list_of_lists );
  • my $sub=Data::Range::Compare->range_compare(\%helper, \@list_of_lists, consolidate_ranges=>0);
  • my $sub=Data::Range::Compare->range_compare( \%helper, \@list_of_lists, consolidate_ranges=>1);

    Returns an anonymous subroutine. The subroutine can be used to iterate through the list of lists at intersecting points.

    Optional argument consolidate_ranges>(0||1)

      consolidate_ranges=>1 ( Default )
        calls Data::Range::Compare->consolidate_ranges(\%helper,\@list)
        on each \@list in \@list_of_lists
        before entering the compare process
    
      consolidate_ranges=>0 
        Skips the consolidate pass
        
  • my ($row,$cols,$next)=Data::Range::Compare->init_compare_row(\%helper, \@list_of_lists);

    This initializes the values for compare_row, producing the first row. See range_compare for a more practical iterator interface.

  • ($row,$cols,$next)=Data::Range::Compare->compare_row( \%helper, \@list_of_lists, $row, $cols ) if $next;

    Used to continue iteration through @list_of_lists while $next;

This section documents the export-able sort subroutines. These are low level sort subroutines and must be used in a call to "sort".

Example:

  @list=sort sort_in_presentation_order @list;
  • @list=sort sort_in_presentation_order @unsorted_list;

    Sorts a list of Data::Range::Compare objects in presentation order.

  • @list=sort sort_in_consolidate_order @unsorted_list;

    Sorts a list of Data::Range::Compare objects in the order required for range consolidation.

  • @list=sort sort_largest_range_end_first @unsorted_list;

    Sorts a list Data::Range::Compare objects by range_end in descending order.

  • @list=sort sort_smallest_range_start_first @unsorted_list;

    Sorts a list Data::Range::Compare objects by range_start in ascending order.

  • @list=sort sort_smallest_range_end_first @unsorted_list;

    Sorts a list Data::Range::Compare objects by range_end in ascending order.

  • @list=sort sort_largest_range_start_first @unsorted_list;

    Sorts a list Data::Range::Compare objects by range_start in descending order.

:KEYS

  key_helper
  key_start
  key_end
  key_generated
  key_missing
  key_data

:HELPER_CB

  HELPER_CB

:HELPER

  add_one
  sub_one
  cmp_values

:SORT

  sort_largest_range_end_first
  sort_largest_range_start_first
  sort_smallest_range_start_first
  sort_smallest_range_end_first
  sort_in_consolidate_order
  sort_in_presentation_order

Data::Range::Compare::Cookbook

Michael Shipper

As of version 1.026 the Project has been moved to Source-Forge.net

Data Range Compare <https://sourceforge.net/projects/data-range-comp/> <https://sourceforge.net/projects/data-range-comp/>

Copyright 2010 Michael Shipper. All rights reserved.

This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself.

2015-12-10 perl v5.32.1

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