spreadsheet::writeexcel::examples(3pm) [debian man page]

Spreadsheet::WriteExcel::Examples(3pm)			User Contributed Perl Documentation		    Spreadsheet::WriteExcel::Examples(3pm)

NAME

       Examples - Spreadsheet::WriteExcel example programs.

DESCRIPTION

       This is a documentation only module showing the examples that are included in the Spreadsheet::WriteExcel distribution.

       This file was auto-generated via the gen_examples_pod.pl program that is also included in the examples directory.

Example programs
       The following is a list of the 85 example programs that are included in the Spreadsheet::WriteExcel distribution.

       o   "Example: a_simple.pl" A get started example with some basic features.

       o   "Example: demo.pl" A demo of some of the available features.

       o   "Example: regions.pl" A simple example of multiple worksheets.

       o   "Example: stats.pl" Basic formulas and functions.

       o   "Example: formats.pl" All the available formatting on several worksheets.

       o   "Example: bug_report.pl" A template for submitting bug reports.

       o   "Example: autofilter.pl" Examples of worksheet autofilters.

       o   "Example: autofit.pl" Simulate Excel's autofit for column widths.

       o   "Example: bigfile.pl" Write past the 7MB limit with OLE::Storage_Lite.

       o   "Example: cgi.pl" A simple CGI program.

       o   "Example: chart_area.pl" A demo of area style charts.

       o   "Example: chart_bar.pl" A demo of bar (vertical histogram) style charts.

       o   "Example: chart_column.pl" A demo of column (histogram) style charts.

       o   "Example: chart_line.pl" A demo of line style charts.

       o   "Example: chart_pie.pl" A demo of pie style charts.

       o   "Example: chart_scatter.pl" A demo of scatter style charts.

       o   "Example: chart_stock.pl" A demo of stock style charts.

       o   "Example: chess.pl" An example of reusing formatting via properties.

       o   "Example: colors.pl" A demo of the colour palette and named colours.

       o   "Example: comments1.pl" Add comments to worksheet cells.

       o   "Example: comments2.pl" Add comments with advanced options.

       o   "Example: copyformat.pl" Example of copying a cell format.

       o   "Example: data_validate.pl" An example of data validation and dropdown lists.

       o   "Example: date_time.pl" Write dates and times with write_date_time().

       o   "Example: defined_name.pl" Example of how to create defined names.

       o   "Example: diag_border.pl" A simple example of diagonal cell borders.

       o   "Example: easter_egg.pl" Expose the Excel97 flight simulator.

       o   "Example: filehandle.pl" Examples of working with filehandles.

       o   "Example: formula_result.pl" Formulas with user specified results.

       o   "Example: headers.pl" Examples of worksheet headers and footers.

       o   "Example: hide_sheet.pl" Simple example of hiding a worksheet.

       o   "Example: hyperlink1.pl" Shows how to create web hyperlinks.

       o   "Example: hyperlink2.pl" Examples of internal and external hyperlinks.

       o   "Example: images.pl" Adding images to worksheets.

       o   "Example: indent.pl" An example of cell indentation.

       o   "Example: merge1.pl" A simple example of cell merging.

       o   "Example: merge2.pl" A simple example of cell merging with formatting.

       o   "Example: merge3.pl" Add hyperlinks to merged cells.

       o   "Example: merge4.pl" An advanced example of merging with formatting.

       o   "Example: merge5.pl" An advanced example of merging with formatting.

       o   "Example: merge6.pl" An example of merging with Unicode strings.

       o   "Example: mod_perl1.pl" A simple mod_perl 1 program.

       o   "Example: mod_perl2.pl" A simple mod_perl 2 program.

       o   "Example: outline.pl" An example of outlines and grouping.

       o   "Example: outline_collapsed.pl" An example of collapsed outlines.

       o   "Example: panes.pl" An examples of how to create panes.

       o   "Example: properties.pl" Add document properties to a workbook.

       o   "Example: protection.pl" Example of cell locking and formula hiding.

       o   "Example: repeat.pl" Example of writing repeated formulas.

       o   "Example: right_to_left.pl" Change default sheet direction to right to left.

       o   "Example: row_wrap.pl" How to wrap data from one worksheet onto another.

       o   "Example: sales.pl" An example of a simple sales spreadsheet.

       o   "Example: sendmail.pl" Send an Excel email attachment using Mail::Sender.

       o   "Example: stats_ext.pl" Same as stats.pl with external references.

       o   "Example: stocks.pl" Demonstrates conditional formatting.

       o   "Example: tab_colors.pl" Example of how to set worksheet tab colours.

       o   "Example: textwrap.pl" Demonstrates text wrapping options.

       o   "Example: win32ole.pl" A sample Win32::OLE example for comparison.

       o   "Example: write_arrays.pl" Example of writing 1D or 2D arrays of data.

       o   "Example: write_handler1.pl" Example of extending the write() method. Step 1.

       o   "Example: write_handler2.pl" Example of extending the write() method. Step 2.

       o   "Example: write_handler3.pl" Example of extending the write() method. Step 3.

       o   "Example: write_handler4.pl" Example of extending the write() method. Step 4.

       o   "Example: write_to_scalar.pl" Example of writing an Excel file to a Perl scalar.

       o   "Example: unicode_utf16.pl" Simple example of using Unicode UTF16 strings.

       o   "Example: unicode_utf16_japan.pl" Write Japanese Unicode strings using UTF-16.

       o   "Example: unicode_cyrillic.pl" Write Russian Cyrillic strings using UTF-8.

       o   "Example: unicode_list.pl" List the chars in a Unicode font.

       o   "Example: unicode_2022_jp.pl" Japanese: ISO-2022-JP to utf8 in perl 5.8.

       o   "Example: unicode_8859_11.pl" Thai:	   ISO-8859_11 to utf8 in perl 5.8.

       o   "Example: unicode_8859_7.pl" Greek:	  ISO-8859_7  to utf8 in perl 5.8.

       o   "Example: unicode_big5.pl" Chinese:	BIG5	    to utf8 in perl 5.8.

       o   "Example: unicode_cp1251.pl" Russian:  CP1251      to utf8 in perl 5.8.

       o   "Example: unicode_cp1256.pl" Arabic:   CP1256      to utf8 in perl 5.8.

       o   "Example: unicode_koi8r.pl" Russian:  KOI8-R      to utf8 in perl 5.8.

       o   "Example: unicode_polish_utf8.pl" Polish :  UTF8	   to utf8 in perl 5.8.

       o   "Example: unicode_shift_jis.pl" Japanese: Shift JIS	 to utf8 in perl 5.8.

       o   "Example: csv2xls.pl" Program to convert a CSV file to an Excel file.

       o   "Example: tab2xls.pl" Program to convert a tab separated file to xls.

       o   "Example: datecalc1.pl" Convert Unix/Perl time to Excel time.

       o   "Example: datecalc2.pl" Calculate an Excel date using Date::Calc.

       o   "Example: lecxe.pl" Convert Excel to WriteExcel using Win32::OLE.

       o   "Example: convertA1.pl" Helper functions for dealing with A1 notation.

       o   "Example: function_locale.pl" Add non-English function names to Formula.pm.

       o   "Example: writeA1.pl" Example of how to extend the module.

   Example: a_simple.pl
       A simple example of how to use the Spreadsheet::WriteExcel module to write some	text and numbers to an Excel binary file.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # A simple example of how to use the Spreadsheet::WriteExcel module to write
	   # some  text and numbers to an Excel binary file.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook called simple.xls and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new('a_simple.xls');
	   my $worksheet = $workbook->add_worksheet();

	   # The general syntax is write($row, $column, $token). Note that row and
	   # column are zero indexed
	   #

	   # Write some text
	   $worksheet->write(0, 0,  "Hi Excel!");

	   # Write some numbers
	   $worksheet->write(2, 0,  3); 	 # Writes 3
	   $worksheet->write(3, 0,  3.00000);	 # Writes 3
	   $worksheet->write(4, 0,  3.00001);	 # Writes 3.00001
	   $worksheet->write(5, 0,  3.14159);	 # TeX revision no.?

	   # Write some formulas
	   $worksheet->write(7, 0,  '=A3 + A6');
	   $worksheet->write(8, 0,  '=IF(A5>3,"Yes", "No")');

	   # Write a hyperlink
	   $worksheet->write(10, 0, 'http://www.perl.com/');

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/a_simple.pl>

   Example: demo.pl
       A simple demo of some of the features of Spreadsheet::WriteExcel.

       This program is used to create the project screenshot for Freshmeat: <http://freshmeat.net/projects/writeexcel/>

       Source code for this example:

	   #!/usr/bin/perl -w

	   #######################################################################
	   #
	   # A simple demo of some of the features of Spreadsheet::WriteExcel.
	   #
	   # This program is used to create the project screenshot for Freshmeat:
	   # L<http://freshmeat.net/projects/writeexcel/>
	   #
	   # reverse('X'), October 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook   = Spreadsheet::WriteExcel->new("demo.xls");
	   my $worksheet  = $workbook->add_worksheet('Demo');
	   my $worksheet2 = $workbook->add_worksheet('Another sheet');
	   my $worksheet3 = $workbook->add_worksheet('And another');

	   my $bold	  = $workbook->add_format(bold => 1);

	   #######################################################################
	   #
	   # Write a general heading
	   #
	   $worksheet->set_column('A:A', 36, $bold);
	   $worksheet->set_column('B:B', 20	  );
	   $worksheet->set_row	 (0,	 40	  );

	   my $heading	= $workbook->add_format(
						   bold    => 1,
						   color   => 'blue',
						   size    => 16,
						   merge   => 1,
						   align  => 'vcenter',
						   );

	   my @headings = ('Features of Spreadsheet::WriteExcel', '');
	   $worksheet->write_row('A1', @headings, $heading);

	   #######################################################################
	   #
	   # Some text examples
	   #
	   my $text_format  = $workbook->add_format(
						       bold    => 1,
						       italic  => 1,
						       color   => 'red',
						       size    => 18,
						       font    =>'Lucida Calligraphy'
						   );

	   # A phrase in Cyrillic
	   my $unicode = pack "H*", "042d0442043e002004440440043004370430002004".
				    "3d043000200440044304410441043a043e043c0021";

	   $worksheet->write('A2', "Text");
	   $worksheet->write('B2', "Hello Excel");
	   $worksheet->write('A3', "Formatted text");
	   $worksheet->write('B3', "Hello Excel", $text_format);
	   $worksheet->write('A4', "Unicode text");
	   $worksheet->write_utf16be_string('B4', $unicode);

	   #######################################################################
	   #
	   # Some numeric examples
	   #
	   my $num1_format  = $workbook->add_format(num_format => '$#,##0.00');
	   my $num2_format  = $workbook->add_format(num_format => ' d mmmm yyy');

	   $worksheet->write('A5', "Numbers");
	   $worksheet->write('B5', 1234.56);
	   $worksheet->write('A6', "Formatted numbers");
	   $worksheet->write('B6', 1234.56, $num1_format);
	   $worksheet->write('A7', "Formatted numbers");
	   $worksheet->write('B7', 37257, $num2_format);

	   #######################################################################
	   #
	   # Formulae
	   #
	   $worksheet->set_selection('B8');
	   $worksheet->write('A8', 'Formulas and functions, "=SIN(PI()/4)"');
	   $worksheet->write('B8', '=SIN(PI()/4)');

	   #######################################################################
	   #
	   # Hyperlinks
	   #
	   $worksheet->write('A9', "Hyperlinks");
	   $worksheet->write('B9',  'http://www.perl.com/' );

	   #######################################################################
	   #
	   # Images
	   #
	   $worksheet->write('A10', "Images");
	   $worksheet->insert_image('B10', 'republic.png', 16, 8);

	   #######################################################################
	   #
	   # Misc
	   #
	   $worksheet->write('A18', "Page/printer setup");
	   $worksheet->write('A19', "Multiple worksheets");

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/demo.pl>

   Example: regions.pl
       An example of how to use the Spreadsheet:WriteExcel module to write a basic Excel workbook with multiple worksheets.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # An example of how to use the Spreadsheet:WriteExcel module to write a basic
	   # Excel workbook with multiple worksheets.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new Excel workbook
	   my $workbook = Spreadsheet::WriteExcel->new("regions.xls");

	   # Add some worksheets
	   my $north = $workbook->add_worksheet("North");
	   my $south = $workbook->add_worksheet("South");
	   my $east  = $workbook->add_worksheet("East");
	   my $west  = $workbook->add_worksheet("West");

	   # Add a Format
	   my $format = $workbook->add_format();
	   $format->set_bold();
	   $format->set_color('blue');

	   # Add a caption to each worksheet
	   foreach my $worksheet ($workbook->sheets()) {
	       $worksheet->write(0, 0, "Sales", $format);
	   }

	   # Write some data
	   $north->write(0, 1, 200000);
	   $south->write(0, 1, 100000);
	   $east->write (0, 1, 150000);
	   $west->write (0, 1, 100000);

	   # Set the active worksheet
	   $south->activate();

	   # Set the width of the first column
	   $south->set_column(0, 0, 20);

	   # Set the active cell
	   $south->set_selection(0, 1);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/regions.pl>

   Example: stats.pl
       A simple example of how to use functions with the Spreadsheet::WriteExcel module.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # A simple example of how to use functions with the Spreadsheet::WriteExcel
	   # module.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new("stats.xls");
	   my $worksheet = $workbook->add_worksheet('Test data');

	   # Set the column width for columns 1
	   $worksheet->set_column(0, 0, 20);

	   # Create a format for the headings
	   my $format = $workbook->add_format();
	   $format->set_bold();

	   # Write the sample data
	   $worksheet->write(0, 0, 'Sample', $format);
	   $worksheet->write(0, 1, 1);
	   $worksheet->write(0, 2, 2);
	   $worksheet->write(0, 3, 3);
	   $worksheet->write(0, 4, 4);
	   $worksheet->write(0, 5, 5);
	   $worksheet->write(0, 6, 6);
	   $worksheet->write(0, 7, 7);
	   $worksheet->write(0, 8, 8);

	   $worksheet->write(1, 0, 'Length', $format);
	   $worksheet->write(1, 1, 25.4);
	   $worksheet->write(1, 2, 25.4);
	   $worksheet->write(1, 3, 24.8);
	   $worksheet->write(1, 4, 25.0);
	   $worksheet->write(1, 5, 25.3);
	   $worksheet->write(1, 6, 24.9);
	   $worksheet->write(1, 7, 25.2);
	   $worksheet->write(1, 8, 24.8);

	   # Write some statistical functions
	   $worksheet->write(4,  0, 'Count', $format);
	   $worksheet->write(4,  1, '=COUNT(B1:I1)');

	   $worksheet->write(5,  0, 'Sum', $format);
	   $worksheet->write(5,  1, '=SUM(B2:I2)');

	   $worksheet->write(6,  0, 'Average', $format);
	   $worksheet->write(6,  1, '=AVERAGE(B2:I2)');

	   $worksheet->write(7,  0, 'Min', $format);
	   $worksheet->write(7,  1, '=MIN(B2:I2)');

	   $worksheet->write(8,  0, 'Max', $format);
	   $worksheet->write(8,  1, '=MAX(B2:I2)');

	   $worksheet->write(9,  0, 'Standard Deviation', $format);
	   $worksheet->write(9,  1, '=STDEV(B2:I2)');

	   $worksheet->write(10, 0, 'Kurtosis', $format);
	   $worksheet->write(10, 1, '=KURT(B2:I2)');

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/stats.pl>

   Example: formats.pl
       Examples of formatting using the Spreadsheet::WriteExcel module.

       This program demonstrates almost all possible formatting options. It is worth running this program and viewing the output Excel file if you
       are interested in the various formatting possibilities.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Examples of formatting using the Spreadsheet::WriteExcel module.
	   #
	   # This program demonstrates almost all possible formatting options. It is worth
	   # running this program and viewing the output Excel file if you are interested
	   # in the various formatting possibilities.
	   #
	   # reverse('X'), September 2002, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook = Spreadsheet::WriteExcel->new('formats.xls');

	   # Some common formats
	   my $center  = $workbook->add_format(align => 'center');
	   my $heading = $workbook->add_format(align => 'center', bold => 1);

	   # The named colors
	   my %colors = (
			   0x08, 'black',
			   0x0C, 'blue',
			   0x10, 'brown',
			   0x0F, 'cyan',
			   0x17, 'gray',
			   0x11, 'green',
			   0x0B, 'lime',
			   0x0E, 'magenta',
			   0x12, 'navy',
			   0x35, 'orange',
			   0x21, 'pink',
			   0x14, 'purple',
			   0x0A, 'red',
			   0x16, 'silver',
			   0x09, 'white',
			   0x0D, 'yellow',
			);

	   # Call these subroutines to demonstrate different formatting options
	   intro();
	   fonts();
	   named_colors();
	   standard_colors();
	   numeric_formats();
	   borders();
	   patterns();
	   alignment();
	   misc();

	   # Note: this is required
	   $workbook->close();

	   ######################################################################
	   #
	   # Intro.
	   #
	   sub intro {

	       my $worksheet = $workbook->add_worksheet('Introduction');

	       $worksheet->set_column(0, 0, 60);

	       my $format = $workbook->add_format();
	       $format->set_bold();
	       $format->set_size(14);
	       $format->set_color('blue');
	       $format->set_align('center');

	       my $format2 = $workbook->add_format();
	       $format2->set_bold();
	       $format2->set_color('blue');

	       $worksheet->write(2, 0, 'This workbook demonstrates some of',  $format);
	       $worksheet->write(3, 0, 'the formatting options provided by',  $format);
	       $worksheet->write(4, 0, 'the Spreadsheet::WriteExcel module.', $format);

	       $worksheet->write('A7',	'Sections:', $format2);
	       $worksheet->write('A8',	"internal:Fonts!A1",		 'Fonts'	  );
	       $worksheet->write('A9',	"internal:'Named colors'!A1",	 'Named colors'   );
	       $worksheet->write('A10', "internal:'Standard colors'!A1", 'Standard colors');
	       $worksheet->write('A11', "internal:'Numeric formats'!A1", 'Numeric formats');
	       $worksheet->write('A12', "internal:Borders!A1",		 'Borders'	  );
	       $worksheet->write('A13', "internal:Patterns!A1", 	 'Patterns'	  );
	       $worksheet->write('A14', "internal:Alignment!A1",	 'Alignment'	  );
	       $worksheet->write('A15', "internal:Miscellaneous!A1",	 'Miscellaneous'  );

	   }

	   ######################################################################
	   #
	   # Demonstrate the named colors.
	   #
	   sub named_colors {

	       my $worksheet = $workbook->add_worksheet('Named colors');

	       $worksheet->set_column(0, 3, 15);

	       $worksheet->write(0, 0, "Index", $heading);
	       $worksheet->write(0, 1, "Index", $heading);
	       $worksheet->write(0, 2, "Name",	$heading);
	       $worksheet->write(0, 3, "Color", $heading);

	       my $i = 1;

	       while (my($index, $color) = each %colors) {
		   my $format = $workbook->add_format(
						       bg_color => $color,
						       pattern	=> 1,
						       border	=> 1
						    );

		   $worksheet->write($i+1, 0, $index,			 $center);
		   $worksheet->write($i+1, 1, sprintf("0x%02X", $index), $center);
		   $worksheet->write($i+1, 2, $color,			 $center);
		   $worksheet->write($i+1, 3, '',			 $format);
		   $i++;
	       }
	   }

	   ######################################################################
	   #
	   # Demonstrate the standard Excel colors in the range 8..63.
	   #
	   sub standard_colors {

	       my $worksheet = $workbook->add_worksheet('Standard colors');

	       $worksheet->set_column(0, 3, 15);

	       $worksheet->write(0, 0, "Index", $heading);
	       $worksheet->write(0, 1, "Index", $heading);
	       $worksheet->write(0, 2, "Color", $heading);
	       $worksheet->write(0, 3, "Name",	$heading);

	       for my $i (8..63) {
		   my $format = $workbook->add_format(
						       bg_color => $i,
						       pattern	=> 1,
						       border	=> 1
						    );

		   $worksheet->write(($i -7), 0, $i,			$center);
		   $worksheet->write(($i -7), 1, sprintf("0x%02X", $i), $center);
		   $worksheet->write(($i -7), 2, '',			$format);

		   # Add the  color names
		   if (exists $colors{$i}) {
		       $worksheet->write(($i -7), 3, $colors{$i}, $center);

		   }
	       }
	   }

	   ######################################################################
	   #
	   # Demonstrate the standard numeric formats.
	   #
	   sub numeric_formats {

	       my $worksheet = $workbook->add_worksheet('Numeric formats');

	       $worksheet->set_column(0, 4, 15);
	       $worksheet->set_column(5, 5, 45);

	       $worksheet->write(0, 0, "Index",       $heading);
	       $worksheet->write(0, 1, "Index",       $heading);
	       $worksheet->write(0, 2, "Unformatted", $heading);
	       $worksheet->write(0, 3, "Formatted",   $heading);
	       $worksheet->write(0, 4, "Negative",    $heading);
	       $worksheet->write(0, 5, "Format",      $heading);

	       my @formats;
	       push @formats, [ 0x00, 1234.567,   0,	     'General' ];
	       push @formats, [ 0x01, 1234.567,   0,	     '0' ];
	       push @formats, [ 0x02, 1234.567,   0,	     '0.00' ];
	       push @formats, [ 0x03, 1234.567,   0,	     '#,##0' ];
	       push @formats, [ 0x04, 1234.567,   0,	     '#,##0.00' ];
	       push @formats, [ 0x05, 1234.567,   -1234.567, '($#,##0_);($#,##0)' ];
	       push @formats, [ 0x06, 1234.567,   -1234.567, '($#,##0_);[Red]($#,##0)' ];
	       push @formats, [ 0x07, 1234.567,   -1234.567, '($#,##0.00_);($#,##0.00)' ];
	       push @formats, [ 0x08, 1234.567,   -1234.567, '($#,##0.00_);[Red]($#,##0.00)' ];
	       push @formats, [ 0x09, 0.567,	  0,	     '0%' ];
	       push @formats, [ 0x0a, 0.567,	  0,	     '0.00%' ];
	       push @formats, [ 0x0b, 1234.567,   0,	     '0.00E+00' ];
	       push @formats, [ 0x0c, 0.75,	  0,	     '# ?/?' ];
	       push @formats, [ 0x0d, 0.3125,	  0,	     '# ??/??' ];
	       push @formats, [ 0x0e, 36892.521,  0,	     'm/d/yy' ];
	       push @formats, [ 0x0f, 36892.521,  0,	     'd-mmm-yy' ];
	       push @formats, [ 0x10, 36892.521,  0,	     'd-mmm' ];
	       push @formats, [ 0x11, 36892.521,  0,	     'mmm-yy' ];
	       push @formats, [ 0x12, 36892.521,  0,	     'h:mm AM/PM' ];
	       push @formats, [ 0x13, 36892.521,  0,	     'h:mm:ss AM/PM' ];
	       push @formats, [ 0x14, 36892.521,  0,	     'h:mm' ];
	       push @formats, [ 0x15, 36892.521,  0,	     'h:mm:ss' ];
	       push @formats, [ 0x16, 36892.521,  0,	     'm/d/yy h:mm' ];
	       push @formats, [ 0x25, 1234.567,   -1234.567, '(#,##0_);(#,##0)' ];
	       push @formats, [ 0x26, 1234.567,   -1234.567, '(#,##0_);[Red](#,##0)' ];
	       push @formats, [ 0x27, 1234.567,   -1234.567, '(#,##0.00_);(#,##0.00)' ];
	       push @formats, [ 0x28, 1234.567,   -1234.567, '(#,##0.00_);[Red](#,##0.00)' ];
	       push @formats, [ 0x29, 1234.567,   -1234.567, '_(* #,##0_);_(* (#,##0);_(* "-"_);_(@_)' ];
	       push @formats, [ 0x2a, 1234.567,   -1234.567, '_($* #,##0_);_($* (#,##0);_($* "-"_);_(@_)' ];
	       push @formats, [ 0x2b, 1234.567,   -1234.567, '_(* #,##0.00_);_(* (#,##0.00);_(* "-"??_);_(@_)' ];
	       push @formats, [ 0x2c, 1234.567,   -1234.567, '_($* #,##0.00_);_($* (#,##0.00);_($* "-"??_);_(@_)' ];
	       push @formats, [ 0x2d, 36892.521,  0,	     'mm:ss' ];
	       push @formats, [ 0x2e, 3.0153,	  0,	     '[h]:mm:ss' ];
	       push @formats, [ 0x2f, 36892.521,  0,	     'mm:ss.0' ];
	       push @formats, [ 0x30, 1234.567,   0,	     '##0.0E+0' ];
	       push @formats, [ 0x31, 1234.567,   0,	     '@' ];

	       my $i;
	       foreach my $format (@formats){
		   my $style = $workbook->add_format();
		   $style->set_num_format($format->[0]);

		   $i++;
		   $worksheet->write($i, 0, $format->[0],		     $center);
		   $worksheet->write($i, 1, sprintf("0x%02X", $format->[0]), $center);
		   $worksheet->write($i, 2, $format->[1],		     $center);
		   $worksheet->write($i, 3, $format->[1],		     $style);

		   if ($format->[2]) {
		       $worksheet->write($i, 4, $format->[2], $style);
		   }

		   $worksheet->write_string($i, 5, $format->[3]);
	       }
	   }

	   ######################################################################
	   #
	   # Demonstrate the font options.
	   #
	   sub fonts {

	       my $worksheet = $workbook->add_worksheet('Fonts');

	       $worksheet->set_column(0, 0, 30);
	       $worksheet->set_column(1, 1, 10);

	       $worksheet->write(0, 0, "Font name",   $heading);
	       $worksheet->write(0, 1, "Font size",   $heading);

	       my @fonts;
	       push @fonts, [ 10, 'Arial' ];
	       push @fonts, [ 12, 'Arial' ];
	       push @fonts, [ 14, 'Arial' ];
	       push @fonts, [ 12, 'Arial Black' ];
	       push @fonts, [ 12, 'Arial Narrow' ];
	       push @fonts, [ 12, 'Century Schoolbook' ];
	       push @fonts, [ 12, 'Courier' ];
	       push @fonts, [ 12, 'Courier New' ];
	       push @fonts, [ 12, 'Garamond' ];
	       push @fonts, [ 12, 'Impact' ];
	       push @fonts, [ 12, 'Lucida Handwriting'] ;
	       push @fonts, [ 12, 'Times New Roman' ];
	       push @fonts, [ 12, 'Symbol' ];
	       push @fonts, [ 12, 'Wingdings' ];
	       push @fonts, [ 12, 'A font that doesn't exist' ];

	       my $i;
	       foreach my $font (@fonts){
		   my $format = $workbook->add_format();

		   $format->set_size($font->[0]);
		   $format->set_font($font->[1]);

		   $i++;
		   $worksheet->write($i, 0, $font->[1], $format);
		   $worksheet->write($i, 1, $font->[0], $format);
	       }

	   }

	   ######################################################################
	   #
	   # Demonstrate the standard Excel border styles.
	   #
	   sub borders {

	       my $worksheet = $workbook->add_worksheet('Borders');

	       $worksheet->set_column(0, 4, 10);
	       $worksheet->set_column(5, 5, 40);

	       $worksheet->write(0, 0, "Index", $heading);
	       $worksheet->write(0, 1, "Index", $heading);
	       $worksheet->write(0, 3, "Style", $heading);
	       $worksheet->write(0, 5, "The style is highlighted in red for ", $heading);
	       $worksheet->write(1, 5, "emphasis, the default color is black.", $heading);

	       for my $i (0..13){
		   my $format = $workbook->add_format();
		   $format->set_border($i);
		   $format->set_border_color('red');
		   $format->set_align('center');

		   $worksheet->write((2*($i+1)), 0, $i, 		   $center);
		   $worksheet->write((2*($i+1)), 1, sprintf("0x%02X", $i), $center);

		   $worksheet->write((2*($i+1)), 3, "Border", $format);
	       }

	       $worksheet->write(30, 0, "Diag type", $heading);
	       $worksheet->write(30, 1, "Index", $heading);
	       $worksheet->write(30, 3, "Style", $heading);
	       $worksheet->write(30, 5, "Diagonal Boder styles", $heading);

	       for my $i (1..3){
		   my $format = $workbook->add_format();
		   $format->set_diag_type($i);
		   $format->set_diag_border(1);
		   $format->set_diag_color('red');
		   $format->set_align('center');

		   $worksheet->write((2*($i+15)), 0, $i,		     $center);
		   $worksheet->write((2*($i+15)), 1, sprintf("0x%02X", $i),  $center);

		   $worksheet->write((2*($i+15)), 3, "Border", $format);
	       }
	   }

	   ######################################################################
	   #
	   # Demonstrate the standard Excel cell patterns.
	   #
	   sub patterns {

	       my $worksheet = $workbook->add_worksheet('Patterns');

	       $worksheet->set_column(0, 4, 10);
	       $worksheet->set_column(5, 5, 50);

	       $worksheet->write(0, 0, "Index", $heading);
	       $worksheet->write(0, 1, "Index", $heading);
	       $worksheet->write(0, 3, "Pattern", $heading);

	       $worksheet->write(0, 5, "The background colour has been set to silver.", $heading);
	       $worksheet->write(1, 5, "The foreground colour has been set to green.",	$heading);

	       for my $i (0..18){
		   my $format = $workbook->add_format();

		   $format->set_pattern($i);
		   $format->set_bg_color('silver');
		   $format->set_fg_color('green');
		   $format->set_align('center');

		   $worksheet->write((2*($i+1)), 0, $i, 		   $center);
		   $worksheet->write((2*($i+1)), 1, sprintf("0x%02X", $i), $center);

		   $worksheet->write((2*($i+1)), 3, "Pattern", $format);

		   if ($i == 1) {
		       $worksheet->write((2*($i+1)), 5, "This is solid colour, the most useful pattern.", $heading);
		   }
	       }
	   }

	   ######################################################################
	   #
	   # Demonstrate the standard Excel cell alignments.
	   #
	   sub alignment {

	       my $worksheet = $workbook->add_worksheet('Alignment');

	       $worksheet->set_column(0, 7, 12);
	       $worksheet->set_row(0, 40);
	       $worksheet->set_selection(7, 0);

	       my $format01 = $workbook->add_format();
	       my $format02 = $workbook->add_format();
	       my $format03 = $workbook->add_format();
	       my $format04 = $workbook->add_format();
	       my $format05 = $workbook->add_format();
	       my $format06 = $workbook->add_format();
	       my $format07 = $workbook->add_format();
	       my $format08 = $workbook->add_format();
	       my $format09 = $workbook->add_format();
	       my $format10 = $workbook->add_format();
	       my $format11 = $workbook->add_format();
	       my $format12 = $workbook->add_format();
	       my $format13 = $workbook->add_format();
	       my $format14 = $workbook->add_format();
	       my $format15 = $workbook->add_format();
	       my $format16 = $workbook->add_format();
	       my $format17 = $workbook->add_format();

	       $format02->set_align('top');
	       $format03->set_align('bottom');
	       $format04->set_align('vcenter');
	       $format05->set_align('vjustify');
	       $format06->set_text_wrap();

	       $format07->set_align('left');
	       $format08->set_align('right');
	       $format09->set_align('center');
	       $format10->set_align('fill');
	       $format11->set_align('justify');
	       $format12->set_merge();

	       $format13->set_rotation(45);
	       $format14->set_rotation(-45);
	       $format15->set_rotation(270);

	       $format16->set_shrink();
	       $format17->set_indent(1);

	       $worksheet->write(0, 0, 'Vertical',     $heading);
	       $worksheet->write(0, 1, 'top',	       $format02);
	       $worksheet->write(0, 2, 'bottom',       $format03);
	       $worksheet->write(0, 3, 'vcenter',      $format04);
	       $worksheet->write(0, 4, 'vjustify',     $format05);
	       $worksheet->write(0, 5, "text
wrap",   $format06);

	       $worksheet->write(2, 0, 'Horizontal',   $heading);
	       $worksheet->write(2, 1, 'left',	       $format07);
	       $worksheet->write(2, 2, 'right',        $format08);
	       $worksheet->write(2, 3, 'center',       $format09);
	       $worksheet->write(2, 4, 'fill',	       $format10);
	       $worksheet->write(2, 5, 'justify',      $format11);

	       $worksheet->write(3, 1, 'merge',        $format12);
	       $worksheet->write(3, 2, '',	       $format12);

	       $worksheet->write(3, 3, 'Shrink ' x 3,  $format16);
	       $worksheet->write(3, 4, 'Indent',       $format17);

	       $worksheet->write(5, 0, 'Rotation',     $heading);
	       $worksheet->write(5, 1, 'Rotate 45',    $format13);
	       $worksheet->write(6, 1, 'Rotate -45',   $format14);
	       $worksheet->write(7, 1, 'Rotate 270',   $format15);
	   }

	   ######################################################################
	   #
	   # Demonstrate other miscellaneous features.
	   #
	   sub misc {

	       my $worksheet = $workbook->add_worksheet('Miscellaneous');

	       $worksheet->set_column(2, 2, 25);

	       my $format01 = $workbook->add_format();
	       my $format02 = $workbook->add_format();
	       my $format03 = $workbook->add_format();
	       my $format04 = $workbook->add_format();
	       my $format05 = $workbook->add_format();
	       my $format06 = $workbook->add_format();
	       my $format07 = $workbook->add_format();

	       $format01->set_underline(0x01);
	       $format02->set_underline(0x02);
	       $format03->set_underline(0x21);
	       $format04->set_underline(0x22);
	       $format05->set_font_strikeout();
	       $format06->set_font_outline();
	       $format07->set_font_shadow();

	       $worksheet->write(1,  2, 'Underline  0x01',	    $format01);
	       $worksheet->write(3,  2, 'Underline  0x02',	    $format02);
	       $worksheet->write(5,  2, 'Underline  0x21',	    $format03);
	       $worksheet->write(7,  2, 'Underline  0x22',	    $format04);
	       $worksheet->write(9,  2, 'Strikeout',		    $format05);
	       $worksheet->write(11, 2, 'Outline (Macintosh only)', $format06);
	       $worksheet->write(13, 2, 'Shadow (Macintosh only)',  $format07);
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/formats.pl>

   Example: bug_report.pl
       A template for submitting a bug report.

       Run this program and read the output from the command line.

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # A template for submitting a bug report.
	   #
	   # Run this program and read the output from the command line.
	   #
	   # reverse('X'), March 2004, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;

	   print << 'HINTS_1';

	   REPORTING A BUG OR ASKING A QUESTION

	       Feel free to report bugs or ask questions. However, to save time
	       consider the following steps first:

	       Read the documentation:

		   The Spreadsheet::WriteExcel documentation has been refined in
		   response to user questions. Therefore, if you have a question it is
		   possible that someone else has asked it before you and that it is
		   already addressed in the documentation. Since there is a lot of
		   documentation to get through you should at least read the table of
		   contents and search for keywords that you are interested in.

	       Look at the example programs:

		   There are over 70 example programs shipped with the standard
		   Spreadsheet::WriteExcel distribution. Many of these were created in
		   response to user questions. Try to identify an example program that
		   corresponds to your query and adapt it to your needs.

	   HINTS_1
	   print "Press enter ..."; <STDIN>;

	   print << 'HINTS_2';

	       If you submit a bug report here are some pointers.

	       1.  Put "WriteExcel:" at the beginning of the subject line. This helps
		   to filter genuine messages from spam.

	       2.  Describe the problems as clearly and as concisely as possible.

	       3.  Send a sample program. It is often easier to describe a problem in
		   code than in written prose.

	       4.  The sample program should be as small as possible to demonstrate the
		   problem. Don't copy and past large sections of your program. The
		   program should also be self contained and working.

	       A sample bug report is generated below. If you use this format then it
	       will help to analyse your question and respond to it more quickly.

	       Please don't send patches without contacting the author first.

	   HINTS_2
	   print "Press enter ..."; <STDIN>;

	   print << 'EMAIL';

	   =======================================================================

	   To:	    John McNamara <jmcnamara@cpan.org>
	   Subject: WriteExcel: Problem with something.

	   Hi John,

	   I am using Spreadsheet::WriteExcel and I have encountered a problem. I
	   want it to do SOMETHING but the module appears to do SOMETHING_ELSE.

	   Here is some code that demonstrates the problem.

	       #!/usr/bin/perl -w

	       use strict;
	       use Spreadsheet::WriteExcel;

	       my $workbook  = Spreadsheet::WriteExcel->new("reload.xls");
	       my $worksheet = $workbook->add_worksheet();

	       $worksheet->write(0, 0, "Hi Excel!");

	       __END__

	   I tested using Excel XX (or Gnumeric or OpenOffice.org).

	   My automatically generated system details are as follows:
	   EMAIL

	   print "
	Perl version   : $]";
	   print "
	OS name        : $^O";
	   print "
	Module versions: (not all are required)
";

	   my @modules = qw(
			     Spreadsheet::WriteExcel
			     Spreadsheet::ParseExcel
			     OLE::Storage_Lite
			     Parse::RecDescent
			     File::Temp
			     Digest::MD4
			     Digest::Perl::MD4
			     Digest::MD5
			   );

	   for my $module (@modules) {
	       my $version;
	       eval "require $module";

	       if (not $@) {
		   $version = $module->VERSION;
		   $version = '(unknown)' if not defined $version;
	       }
	       else {
		   $version = '(not installed)';
	       }

	       printf "%21s%-24s	%s
", "", $module, $version;
	   }

	   print << "BYE";
	   Yours etc.,

	   A. Person
	   --

	   BYE

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/bug_report.pl>

   Example: autofilter.pl
       An example of how to create autofilters with Spreadsheet::WriteExcel.

       An autofilter is a way of adding drop down lists to the headers of a 2D range of worksheet data. This is turn allow users to filter the
       data based on simple criteria so that some data is shown and some is hidden.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # An example of how to create autofilters with Spreadsheet::WriteExcel.
	   #
	   # An autofilter is a way of adding drop down lists to the headers of a 2D range
	   # of worksheet data. This is turn allow users to filter the data based on
	   # simple criteria so that some data is shown and some is hidden.
	   #
	   # reverse('X'), September 2007, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook   = Spreadsheet::WriteExcel->new('autofilter.xls');

	   die "Couldn't create new Excel file: $!.
" unless defined $workbook;

	   my $worksheet1 = $workbook->add_worksheet();
	   my $worksheet2 = $workbook->add_worksheet();
	   my $worksheet3 = $workbook->add_worksheet();
	   my $worksheet4 = $workbook->add_worksheet();
	   my $worksheet5 = $workbook->add_worksheet();
	   my $worksheet6 = $workbook->add_worksheet();

	   my $bold	  = $workbook->add_format(bold => 1);

	   # Extract the data embedded at the end of this file.
	   my @headings = split ' ', <DATA>;
	   my @data;
	   push @data, [split] while <DATA>;

	   # Set up several sheets with the same data.
	   for my $worksheet ($workbook->sheets()) {
	       $worksheet->set_column('A:D', 12);
	       $worksheet->set_row(0, 20, $bold);
	       $worksheet->write('A1', @headings);
	   }

	   ###############################################################################
	   #
	   # Example 1. Autofilter without conditions.
	   #

	   $worksheet1->autofilter('A1:D51');
	   $worksheet1->write('A2', [[@data]]);

	   ###############################################################################
	   #
	   #
	   # Example 2. Autofilter with a filter condition in the first column.
	   #

	   # The range in this example is the same as above but in row-column notation.
	   $worksheet2->autofilter(0, 0, 50, 3);

	   # The placeholder "Region" in the filter is ignored and can be any string
	   # that adds clarity to the expression.
	   #
	   $worksheet2->filter_column(0, 'Region eq East');

	   #
	   # Hide the rows that don't match the filter criteria.
	   #
	   my $row = 1;

	   for my $row_data (@data) {
	       my $region = $row_data->[0];

	       if ($region eq 'East') {
		   # Row is visible.
	       }
	       else {
		   # Hide row.
		   $worksheet2->set_row($row, undef, undef, 1);
	       }

	       $worksheet2->write($row++, 0, $row_data);
	   }

	   ###############################################################################
	   #
	   #
	   # Example 3. Autofilter with a dual filter condition in one of the columns.
	   #

	   $worksheet3->autofilter('A1:D51');

	   $worksheet3->filter_column('A', 'x eq East or x eq South');

	   #
	   # Hide the rows that don't match the filter criteria.
	   #
	   $row = 1;

	   for my $row_data (@data) {
	       my $region = $row_data->[0];

	       if ($region eq 'East' or $region eq 'South') {
		   # Row is visible.
	       }
	       else {
		   # Hide row.
		   $worksheet3->set_row($row, undef, undef, 1);
	       }

	       $worksheet3->write($row++, 0, $row_data);
	   }

	   ###############################################################################
	   #
	   #
	   # Example 4. Autofilter with filter conditions in two columns.
	   #

	   $worksheet4->autofilter('A1:D51');

	   $worksheet4->filter_column('A', 'x eq East');
	   $worksheet4->filter_column('C', 'x > 3000 and x < 8000' );

	   #
	   # Hide the rows that don't match the filter criteria.
	   #
	   $row = 1;

	   for my $row_data (@data) {
	       my $region = $row_data->[0];
	       my $volume = $row_data->[2];

	       if ($region eq 'East' and
		   $volume >  3000   and $volume < 8000
	       )
	       {
		   # Row is visible.
	       }
	       else {
		   # Hide row.
		   $worksheet4->set_row($row, undef, undef, 1);
	       }

	       $worksheet4->write($row++, 0, $row_data);
	   }

	   ###############################################################################
	   #
	   #
	   # Example 5. Autofilter with filter for blanks.
	   #

	   # Create a blank cell in our test data.
	   $data[5]->[0] = '';

	   $worksheet5->autofilter('A1:D51');
	   $worksheet5->filter_column('A', 'x == Blanks');

	   #
	   # Hide the rows that don't match the filter criteria.
	   #
	   $row = 1;

	   for my $row_data (@data) {
	       my $region = $row_data->[0];

	       if ($region eq '')
	       {
		   # Row is visible.
	       }
	       else {
		   # Hide row.
		   $worksheet5->set_row($row, undef, undef, 1);
	       }

	       $worksheet5->write($row++, 0, $row_data);
	   }

	   ###############################################################################
	   #
	   #
	   # Example 6. Autofilter with filter for non-blanks.
	   #

	   $worksheet6->autofilter('A1:D51');
	   $worksheet6->filter_column('A', 'x == NonBlanks');

	   #
	   # Hide the rows that don't match the filter criteria.
	   #
	   $row = 1;

	   for my $row_data (@data) {
	       my $region = $row_data->[0];

	       if ($region ne '')
	       {
		   # Row is visible.
	       }
	       else {
		   # Hide row.
		   $worksheet6->set_row($row, undef, undef, 1);
	       }

	       $worksheet6->write($row++, 0, $row_data);
	   }

	   __DATA__
	   Region    Item      Volume	 Month
	   East      Apple     9000	 July
	   East      Apple     5000	 July
	   South     Orange    9000	 September
	   North     Apple     2000	 November
	   West      Apple     9000	 November
	   South     Pear      7000	 October
	   North     Pear      9000	 August
	   West      Orange    1000	 December
	   West      Grape     1000	 November
	   South     Pear      10000	 April
	   West      Grape     6000	 January
	   South     Orange    3000	 May
	   North     Apple     3000	 December
	   South     Apple     7000	 February
	   West      Grape     1000	 December
	   East      Grape     8000	 February
	   South     Grape     10000	 June
	   West      Pear      7000	 December
	   South     Apple     2000	 October
	   East      Grape     7000	 December
	   North     Grape     6000	 April
	   East      Pear      8000	 February
	   North     Apple     7000	 August
	   North     Orange    7000	 July
	   North     Apple     6000	 June
	   South     Grape     8000	 September
	   West      Apple     3000	 October
	   South     Orange    10000	 November
	   West      Grape     4000	 July
	   North     Orange    5000	 August
	   East      Orange    1000	 November
	   East      Orange    4000	 October
	   North     Grape     5000	 August
	   East      Apple     1000	 December
	   South     Apple     10000	 March
	   East      Grape     7000	 October
	   West      Grape     1000	 September
	   East      Grape     10000	 October
	   South     Orange    8000	 March
	   North     Apple     4000	 July
	   South     Orange    5000	 July
	   West      Apple     4000	 June
	   East      Apple     5000	 April
	   North     Pear      3000	 August
	   East      Grape     9000	 November
	   North     Orange    8000	 October
	   East      Apple     10000	 June
	   South     Pear      1000	 December
	   North     Grape     10000	 July
	   East      Grape     6000	 February

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/autofilter.pl>

   Example: autofit.pl
       Simulate Excel's autofit for column widths.

       Excel provides a function called Autofit (Format->Columns->Autofit) that adjusts column widths to match the length of the longest string in
       a column.  Excel calculates these widths at run time when it has access to information about string lengths and font information. This
       function is *not* a feature of the file format and thus cannot be implemented by Spreadsheet::WriteExcel.

       However, we can make an attempt to simulate it by keeping track of the longest string written to each column and then adjusting the column
       widths prior to closing the file.

       We keep track of the longest strings by adding a handler to the write() function. See add_handler() in the S::WE docs for more information.

       The main problem with trying to simulate Autofit lies in defining a relationship between a string length and its width in a arbitrary font
       and size. We use two approaches below. The first is a simple direct relationship obtained by trial and error. The second is a slightly more
       sophisticated method using an external module. For more complicated applications you will probably have to work out your own methods.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # Simulate Excel's autofit for column widths.
	   #
	   # Excel provides a function called Autofit (Format->Columns->Autofit) that
	   # adjusts column widths to match the length of the longest string in a column.
	   # Excel calculates these widths at run time when it has access to information
	   # about string lengths and font information. This function is *not* a feature
	   # of the file format and thus cannot be implemented by Spreadsheet::WriteExcel.
	   #
	   # However, we can make an attempt to simulate it by keeping track of the
	   # longest string written to each column and then adjusting the column widths
	   # prior to closing the file.
	   #
	   # We keep track of the longest strings by adding a handler to the write()
	   # function. See add_handler() in the S::WE docs for more information.
	   #
	   # The main problem with trying to simulate Autofit lies in defining a
	   # relationship between a string length and its width in a arbitrary font and
	   # size. We use two approaches below. The first is a simple direct relationship
	   # obtained by trial and error. The second is a slightly more sophisticated
	   # method using an external module. For more complicated applications you will
	   # probably have to work out your own methods.
	   #
	   # reverse('X'), May 2006, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook    = Spreadsheet::WriteExcel->new('autofit.xls');
	   my $worksheet   = $workbook->add_worksheet();

	   ###############################################################################
	   #
	   # Add a handler to store the width of the longest string written to a column.
	   # We use the stored width to simulate an autofit of the column widths.
	   #
	   # You should do this for every worksheet you want to autofit.
	   #
	   $worksheet->add_write_handler(qr[w], &store_string_widths);

	   $worksheet->write('A1', 'Hello');
	   $worksheet->write('B1', 'Hello World');
	   $worksheet->write('D1', 'Hello');
	   $worksheet->write('F1', 'This is a long string as an example.');

	   # Run the autofit after you have finished writing strings to the workbook.
	   autofit_columns($worksheet);

	   ###############################################################################
	   #
	   # Functions used for Autofit.
	   #
	   ###############################################################################

	   ###############################################################################
	   #
	   # Adjust the column widths to fit the longest string in the column.
	   #
	   sub autofit_columns {

	       my $worksheet = shift;
	       my $col	     = 0;

	       for my $width (@{$worksheet->{__col_widths}}) {

		   $worksheet->set_column($col, $col, $width) if $width;
		   $col++;
	       }
	   }

	   ###############################################################################
	   #
	   # The following function is a callback that was added via add_write_handler()
	   # above. It modifies the write() function so that it stores the maximum
	   # unwrapped width of a string in a column.
	   #
	   sub store_string_widths {

	       my $worksheet = shift;
	       my $col	     = $_[1];
	       my $token     = $_[2];

	       # Ignore some tokens that we aren't interested in.
	       return if not defined $token;	   # Ignore undefs.
	       return if $token eq '';		   # Ignore blank cells.
	       return if ref $token eq 'ARRAY';    # Ignore array refs.
	       return if $token =~ /^=/;	   # Ignore formula

	       # Ignore numbers
	       return if $token =~ /^([+-]?)(?=d|.d)d*(.d*)?([Ee]([+-]?d+))?$/;

	       # Ignore various internal and external hyperlinks. In a real scenario
	       # you may wish to track the length of the optional strings used with
	       # urls.
	       return if $token =~ m{^[fh]tt?ps?://};
	       return if $token =~ m{^mailto:};
	       return if $token =~ m{^(?:in|ex)ternal:};

	       # We store the string width as data in the Worksheet object. We use
	       # a double underscore key name to avoid conflicts with future names.
	       #
	       my $old_width	= $worksheet->{__col_widths}->[$col];
	       my $string_width = string_width($token);

	       if (not defined $old_width or $string_width > $old_width) {
		   # You may wish to set a minimum column width as follows.
		   #return undef if $string_width < 10;

		   $worksheet->{__col_widths}->[$col] = $string_width;
	       }

	       # Return control to write();
	       return undef;
	   }

	   ###############################################################################
	   #
	   # Very simple conversion between string length and string width for Arial 10.
	   # See below for a more sophisticated method.
	   #
	   sub string_width {

	       return 0.9 * length $_[0];
	   }

	   __END__

	   ###############################################################################
	   #
	   # This function uses an external module to get a more accurate width for a
	   # string. Note that in a real program you could "use" the module instead of
	   # "require"-ing it and you could make the Font object global to avoid repeated
	   # initialisation.
	   #
	   # Note also that the $pixel_width to $cell_width is specific to Arial. For
	   # other fonts you should calculate appropriate relationships. A future version
	   # of S::WE will provide a way of specifying column widths in pixels instead of
	   # cell units in order to simplify this conversion.
	   #
	   sub string_width {

	       require Font::TTFMetrics;

	       my $arial	= Font::TTFMetrics->new('c:windowsfontsarial.ttf');

	       my $font_size	= 10;
	       my $dpi		= 96;
	       my $units_per_em = $arial->get_units_per_em();
	       my $font_width	= $arial->string_width($_[0]);

	       # Convert to pixels as per TTFMetrics docs.
	       my $pixel_width	= 6 + $font_width *$font_size *$dpi /(72 *$units_per_em);

	       # Add extra pixels for border around text.
	       $pixel_width  += 6;

	       # Convert to cell width (for Arial) and for cell widths > 1.
	       my $cell_width	= ($pixel_width -5) /7;

	       return $cell_width;

	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/autofit.pl>

   Example: bigfile.pl
       Example of creating a Spreadsheet::WriteExcel that is larger than the default 7MB limit.

       This is exactly that same as any other Spreadsheet::WriteExcel program except that is requires that the OLE::Storage module is installed.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of creating a Spreadsheet::WriteExcel that is larger than the
	   # default 7MB limit.
	   #
	   # This is exactly that same as any other Spreadsheet::WriteExcel program except
	   # that is requires that the OLE::Storage module is installed.
	   #
	   # reverse('X'), Jan 2007, John McNamara, jmcnamara@cpan.org

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new('bigfile.xls');
	   my $worksheet = $workbook->add_worksheet();

	   $worksheet->set_column(0, 50, 18);

	   for my $col (0 .. 50) {
	       for my $row (0 .. 6000) {
		   $worksheet->write($row, $col, "Row: $row Col: $col");
	       }
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/bigfile.pl>

   Example: cgi.pl
       Example of how to use the Spreadsheet::WriteExcel module to send an Excel file to a browser in a CGI program.

       On Windows the hash-bang line should be something like:

	   #!C:Perlinperl.exe

       The "Content-Disposition" line will cause a prompt to be generated to save the file. If you want to stream the file to the browser instead,
       comment out that line as shown below.

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to use the Spreadsheet::WriteExcel module to send an Excel
	   # file to a browser in a CGI program.
	   #
	   # On Windows the hash-bang line should be something like:
	   #
	   #	 #!C:Perlinperl.exe
	   #
	   # The "Content-Disposition" line will cause a prompt to be generated to save
	   # the file. If you want to stream the file to the browser instead, comment out
	   # that line as shown below.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Set the filename and send the content type
	   my $filename ="cgitest.xls";

	   print "Content-type: application/vnd.ms-excel
";
	   # The Content-Disposition will generate a prompt to save the file. If you want
	   # to stream the file to the browser, comment out the following line.
	   print "Content-Disposition: attachment; filename=$filename
";
	   print "
";

	   # Create a new workbook and add a worksheet. The special Perl filehandle - will
	   # redirect the output to STDOUT
	   #
	   my $workbook  = Spreadsheet::WriteExcel->new("-");
	   my $worksheet = $workbook->add_worksheet();

	   # Set the column width for column 1
	   $worksheet->set_column(0, 0, 20);

	   # Create a format
	   my $format = $workbook->add_format();
	   $format->set_bold();
	   $format->set_size(15);
	   $format->set_color('blue');

	   # Write to the workbook
	   $worksheet->write(0, 0, "Hi Excel!", $format);

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/cgi.pl>

   Example: chart_area.pl
       A simple demo of Area charts in Spreadsheet::WriteExcel.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # A simple demo of Area charts in Spreadsheet::WriteExcel.
	   #
	   # reverse('X'), December 2009, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new( 'chart_area.xls' );
	   my $worksheet = $workbook->add_worksheet();
	   my $bold	 = $workbook->add_format( bold => 1 );

	   # Add the worksheet data that the charts will refer to.
	   my $headings = [ 'Category', 'Values 1', 'Values 2' ];
	   my $data = [
	       [ 2, 3, 4, 5, 6, 7 ],
	       [ 1, 4, 5, 2, 1, 5 ],
	       [ 3, 6, 7, 5, 4, 3 ],
	   ];

	   $worksheet->write( 'A1', $headings, $bold );
	   $worksheet->write( 'A2', $data );

	   ###############################################################################
	   #
	   # Example 1. A minimal chart.
	   #
	   my $chart1 = $workbook->add_chart( type => 'area' );

	   # Add values only. Use the default categories.
	   $chart1->add_series( values => '=Sheet1!$B$2:$B$7' );

	   ###############################################################################
	   #
	   # Example 2. A minimal chart with user specified categories (X axis)
	   #		and a series name.
	   #
	   my $chart2 = $workbook->add_chart( type => 'area' );

	   # Configure the series.
	   $chart2->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   ###############################################################################
	   #
	   # Example 3. Same as previous chart but with added title and axes labels.
	   #
	   my $chart3 = $workbook->add_chart( type => 'area' );

	   # Configure the series.
	   $chart3->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add some labels.
	   $chart3->set_title( name => 'Results of sample analysis' );
	   $chart3->set_x_axis( name => 'Sample number' );
	   $chart3->set_y_axis( name => 'Sample length (cm)' );

	   ###############################################################################
	   #
	   # Example 4. Same as previous chart but with an added series and with a
	   #		user specified chart sheet name.
	   #
	   my $chart4 = $workbook->add_chart( name => 'Results Chart', type => 'area' );

	   # Configure the series.
	   $chart4->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add another series.
	   $chart4->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$C$2:$C$7',
	       name	  => 'Test data series 2',
	   );

	   # Add some labels.
	   $chart4->set_title( name => 'Results of sample analysis' );
	   $chart4->set_x_axis( name => 'Sample number' );
	   $chart4->set_y_axis( name => 'Sample length (cm)' );

	   ###############################################################################
	   #
	   # Example 5. Same as Example 3 but as an embedded chart.
	   #
	   my $chart5 = $workbook->add_chart( type => 'area', embedded => 1 );

	   # Configure the series.
	   $chart5->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add some labels.
	   $chart5->set_title( name => 'Results of sample analysis' );
	   $chart5->set_x_axis( name => 'Sample number' );
	   $chart5->set_y_axis( name => 'Sample length (cm)' );

	   # Insert the chart into the main worksheet.
	   $worksheet->insert_chart( 'E2', $chart5 );

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/chart_area.pl>

   Example: chart_bar.pl
       A simple demo of Bar charts in Spreadsheet::WriteExcel.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # A simple demo of Bar charts in Spreadsheet::WriteExcel.
	   #
	   # reverse('X'), December 2009, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new( 'chart_bar.xls' );
	   my $worksheet = $workbook->add_worksheet();
	   my $bold	 = $workbook->add_format( bold => 1 );

	   # Add the worksheet data that the charts will refer to.
	   my $headings = [ 'Category', 'Values 1', 'Values 2' ];
	   my $data = [
	       [ 2, 3, 4, 5, 6, 7 ],
	       [ 1, 4, 5, 2, 1, 5 ],
	       [ 3, 6, 7, 5, 4, 3 ],
	   ];

	   $worksheet->write( 'A1', $headings, $bold );
	   $worksheet->write( 'A2', $data );

	   ###############################################################################
	   #
	   # Example 1. A minimal chart.
	   #
	   my $chart1 = $workbook->add_chart( type => 'bar' );

	   # Add values only. Use the default categories.
	   $chart1->add_series( values => '=Sheet1!$B$2:$B$7' );

	   ###############################################################################
	   #
	   # Example 2. A minimal chart with user specified categories (X axis)
	   #		and a series name.
	   #
	   my $chart2 = $workbook->add_chart( type => 'bar' );

	   # Configure the series.
	   $chart2->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   ###############################################################################
	   #
	   # Example 3. Same as previous chart but with added title and axes labels.
	   #
	   my $chart3 = $workbook->add_chart( type => 'bar' );

	   # Configure the series.
	   $chart3->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add some labels.
	   $chart3->set_title( name => 'Results of sample analysis' );
	   $chart3->set_x_axis( name => 'Sample number' );
	   $chart3->set_y_axis( name => 'Sample length (cm)' );

	   ###############################################################################
	   #
	   # Example 4. Same as previous chart but with an added series and with a
	   #		user specified chart sheet name.
	   #
	   my $chart4 = $workbook->add_chart( name => 'Results Chart', type => 'bar' );

	   # Configure the series.
	   $chart4->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add another series.
	   $chart4->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$C$2:$C$7',
	       name	  => 'Test data series 2',
	   );

	   # Add some labels.
	   $chart4->set_title( name => 'Results of sample analysis' );
	   $chart4->set_x_axis( name => 'Sample number' );
	   $chart4->set_y_axis( name => 'Sample length (cm)' );

	   ###############################################################################
	   #
	   # Example 5. Same as Example 3 but as an embedded chart.
	   #
	   my $chart5 = $workbook->add_chart( type => 'bar', embedded => 1 );

	   # Configure the series.
	   $chart5->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add some labels.
	   $chart5->set_title( name => 'Results of sample analysis' );
	   $chart5->set_x_axis( name => 'Sample number' );
	   $chart5->set_y_axis( name => 'Sample length (cm)' );

	   # Insert the chart into the main worksheet.
	   $worksheet->insert_chart( 'E2', $chart5 );

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/chart_bar.pl>

   Example: chart_column.pl
       A simple demo of Column charts in Spreadsheet::WriteExcel.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # A simple demo of Column charts in Spreadsheet::WriteExcel.
	   #
	   # reverse('X'), December 2009, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new( 'chart_column.xls' );
	   my $worksheet = $workbook->add_worksheet();
	   my $bold	 = $workbook->add_format( bold => 1 );

	   # Add the worksheet data that the charts will refer to.
	   my $headings = [ 'Category', 'Values 1', 'Values 2' ];
	   my $data = [
	       [ 2, 3, 4, 5, 6, 7 ],
	       [ 1, 4, 5, 2, 1, 5 ],
	       [ 3, 6, 7, 5, 4, 3 ],
	   ];

	   $worksheet->write( 'A1', $headings, $bold );
	   $worksheet->write( 'A2', $data );

	   ###############################################################################
	   #
	   # Example 1. A minimal chart.
	   #
	   my $chart1 = $workbook->add_chart( type => 'column' );

	   # Add values only. Use the default categories.
	   $chart1->add_series( values => '=Sheet1!$B$2:$B$7' );

	   ###############################################################################
	   #
	   # Example 2. A minimal chart with user specified categories (X axis)
	   #		and a series name.
	   #
	   my $chart2 = $workbook->add_chart( type => 'column' );

	   # Configure the series.
	   $chart2->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   ###############################################################################
	   #
	   # Example 3. Same as previous chart but with added title and axes labels.
	   #
	   my $chart3 = $workbook->add_chart( type => 'column' );

	   # Configure the series.
	   $chart3->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add some labels.
	   $chart3->set_title( name => 'Results of sample analysis' );
	   $chart3->set_x_axis( name => 'Sample number' );
	   $chart3->set_y_axis( name => 'Sample length (cm)' );

	   ###############################################################################
	   #
	   # Example 4. Same as previous chart but with an added series and with a
	   #		user specified chart sheet name.
	   #
	   my $chart4 = $workbook->add_chart( name => 'Results Chart', type => 'column' );

	   # Configure the series.
	   $chart4->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add another series.
	   $chart4->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$C$2:$C$7',
	       name	  => 'Test data series 2',
	   );

	   # Add some labels.
	   $chart4->set_title( name => 'Results of sample analysis' );
	   $chart4->set_x_axis( name => 'Sample number' );
	   $chart4->set_y_axis( name => 'Sample length (cm)' );

	   ###############################################################################
	   #
	   # Example 5. Same as Example 3 but as an embedded chart.
	   #
	   my $chart5 = $workbook->add_chart( type => 'column', embedded => 1 );

	   # Configure the series.
	   $chart5->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add some labels.
	   $chart5->set_title( name => 'Results of sample analysis' );
	   $chart5->set_x_axis( name => 'Sample number' );
	   $chart5->set_y_axis( name => 'Sample length (cm)' );

	   # Insert the chart into the main worksheet.
	   $worksheet->insert_chart( 'E2', $chart5 );

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/chart_column.pl>

   Example: chart_line.pl
       A simple demo of Line charts in Spreadsheet::WriteExcel.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # A simple demo of Line charts in Spreadsheet::WriteExcel.
	   #
	   # reverse('X'), December 2009, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new( 'chart_line.xls' );
	   my $worksheet = $workbook->add_worksheet();
	   my $bold	 = $workbook->add_format( bold => 1 );

	   # Add the worksheet data that the charts will refer to.
	   my $headings = [ 'Category', 'Values 1', 'Values 2' ];
	   my $data = [
	       [ 2, 3, 4, 5, 6, 7 ],
	       [ 1, 4, 5, 2, 1, 5 ],
	       [ 3, 6, 7, 5, 4, 3 ],
	   ];

	   $worksheet->write( 'A1', $headings, $bold );
	   $worksheet->write( 'A2', $data );

	   ###############################################################################
	   #
	   # Example 1. A minimal chart.
	   #
	   my $chart1 = $workbook->add_chart( type => 'line' );

	   # Add values only. Use the default categories.
	   $chart1->add_series( values => '=Sheet1!$B$2:$B$7' );

	   ###############################################################################
	   #
	   # Example 2. A minimal chart with user specified categories (X axis)
	   #		and a series name.
	   #
	   my $chart2 = $workbook->add_chart( type => 'line' );

	   # Configure the series.
	   $chart2->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   ###############################################################################
	   #
	   # Example 3. Same as previous chart but with added title and axes labels.
	   #
	   my $chart3 = $workbook->add_chart( type => 'line' );

	   # Configure the series.
	   $chart3->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add some labels.
	   $chart3->set_title( name => 'Results of sample analysis' );
	   $chart3->set_x_axis( name => 'Sample number' );
	   $chart3->set_y_axis( name => 'Sample length (cm)' );

	   ###############################################################################
	   #
	   # Example 4. Same as previous chart but with an added series and with a
	   #		user specified chart sheet name.
	   #
	   my $chart4 = $workbook->add_chart( name => 'Results Chart', type => 'line' );

	   # Configure the series.
	   $chart4->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add another series.
	   $chart4->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$C$2:$C$7',
	       name	  => 'Test data series 2',
	   );

	   # Add some labels.
	   $chart4->set_title( name => 'Results of sample analysis' );
	   $chart4->set_x_axis( name => 'Sample number' );
	   $chart4->set_y_axis( name => 'Sample length (cm)' );

	   ###############################################################################
	   #
	   # Example 5. Same as Example 3 but as an embedded chart.
	   #
	   my $chart5 = $workbook->add_chart( type => 'line', embedded => 1 );

	   # Configure the series.
	   $chart5->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add some labels.
	   $chart5->set_title( name => 'Results of sample analysis' );
	   $chart5->set_x_axis( name => 'Sample number' );
	   $chart5->set_y_axis( name => 'Sample length (cm)' );

	   # Insert the chart into the main worksheet.
	   $worksheet->insert_chart( 'E2', $chart5 );

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/chart_line.pl>

   Example: chart_pie.pl
       A simple demo of Pie charts in Spreadsheet::WriteExcel.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # A simple demo of Pie charts in Spreadsheet::WriteExcel.
	   #
	   # reverse('X'), December 2009, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new( 'chart_pie.xls' );
	   my $worksheet = $workbook->add_worksheet();
	   my $bold	 = $workbook->add_format( bold => 1 );

	   # Add the worksheet data that the charts will refer to.
	   my $headings = [ 'Category', 'Values' ];
	   my $data = [
	       [ 'Apple', 'Cherry', 'Pecan' ],
	       [ 60,	   30,	     10     ],
	   ];

	   $worksheet->write( 'A1', $headings, $bold );
	   $worksheet->write( 'A2', $data );

	   ###############################################################################
	   #
	   # Example 1. A minimal chart.
	   #
	   my $chart1 = $workbook->add_chart( type => 'pie' );

	   # Add values only. Use the default categories.
	   $chart1->add_series( values => '=Sheet1!$B$2:$B$4' );

	   ###############################################################################
	   #
	   # Example 2. A minimal chart with user specified categories and a series name.
	   #
	   my $chart2 = $workbook->add_chart( type => 'pie' );

	   # Configure the series.
	   $chart2->add_series(
	       categories => '=Sheet1!$A$2:$A$4',
	       values	  => '=Sheet1!$B$2:$B$4',
	       name	  => 'Pie sales data',
	   );

	   ###############################################################################
	   #
	   # Example 3. Same as previous chart but with an added title.
	   #
	   my $chart3 = $workbook->add_chart( type => 'pie' );

	   # Configure the series.
	   $chart3->add_series(
	       categories => '=Sheet1!$A$2:$A$4',
	       values	  => '=Sheet1!$B$2:$B$4',
	       name	  => 'Pie sales data',
	   );

	   # Add a title.
	   $chart3->set_title( name => 'Popular Pie Types' );

	   ###############################################################################
	   #
	   # Example 4. Same as previous chart with a user specified chart sheet name.
	   #
	   my $chart4 = $workbook->add_chart( name => 'Results Chart', type => 'pie' );

	   # Configure the series.
	   $chart4->add_series(
	       categories => '=Sheet1!$A$2:$A$4',
	       values	  => '=Sheet1!$B$2:$B$4',
	       name	  => 'Pie sales data',
	   );

	   # The other chart_*.pl examples add a second series in example 4 but additional
	   # series aren't plotted in a pie chart.

	   # Add a title.
	   $chart4->set_title( name => 'Popular Pie Types' );

	   ###############################################################################
	   #
	   # Example 5. Same as Example 3 but as an embedded chart.
	   #
	   my $chart5 = $workbook->add_chart( type => 'pie', embedded => 1 );

	   # Configure the series.
	   $chart5->add_series(
	       categories => '=Sheet1!$A$2:$A$4',
	       values	  => '=Sheet1!$B$2:$B$4',
	       name	  => 'Pie sales data',
	   );

	   # Add a title.
	   $chart5->set_title( name => 'Popular Pie Types' );

	   # Insert the chart into the main worksheet.
	   $worksheet->insert_chart( 'D2', $chart5 );

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/chart_pie.pl>

   Example: chart_scatter.pl
       A simple demo of Scatter charts in Spreadsheet::WriteExcel.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # A simple demo of Scatter charts in Spreadsheet::WriteExcel.
	   #
	   # reverse('X'), December 2009, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new( 'chart_scatter.xls' );
	   my $worksheet = $workbook->add_worksheet();
	   my $bold	 = $workbook->add_format( bold => 1 );

	   # Add the worksheet data that the charts will refer to.
	   my $headings = [ 'Category', 'Values 1', 'Values 2' ];
	   my $data = [
	       [ 2, 3, 4, 5, 6, 7 ],
	       [ 1, 4, 5, 2, 1, 5 ],
	       [ 3, 6, 7, 5, 4, 3 ],
	   ];

	   $worksheet->write( 'A1', $headings, $bold );
	   $worksheet->write( 'A2', $data );

	   ###############################################################################
	   #
	   # Example 1. A minimal chart.
	   #
	   my $chart1 = $workbook->add_chart( type => 'scatter' );

	   # Add values only. Use the default categories.
	   $chart1->add_series( values => '=Sheet1!$B$2:$B$7' );

	   ###############################################################################
	   #
	   # Example 2. A minimal chart with user specified categories (X axis)
	   #		and a series name.
	   #
	   my $chart2 = $workbook->add_chart( type => 'scatter' );

	   # Configure the series.
	   $chart2->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   ###############################################################################
	   #
	   # Example 3. Same as previous chart but with added title and axes labels.
	   #
	   my $chart3 = $workbook->add_chart( type => 'scatter' );

	   # Configure the series.
	   $chart3->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add some labels.
	   $chart3->set_title( name => 'Results of sample analysis' );
	   $chart3->set_x_axis( name => 'Sample number' );
	   $chart3->set_y_axis( name => 'Sample length (cm)' );

	   ###############################################################################
	   #
	   # Example 4. Same as previous chart but with an added series and with a
	   #		user specified chart sheet name.
	   #
	   my $chart4 = $workbook->add_chart( name => 'Results Chart', type => 'scatter' );

	   # Configure the series.
	   $chart4->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add another series.
	   $chart4->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$C$2:$C$7',
	       name	  => 'Test data series 2',
	   );

	   # Add some labels.
	   $chart4->set_title( name => 'Results of sample analysis' );
	   $chart4->set_x_axis( name => 'Sample number' );
	   $chart4->set_y_axis( name => 'Sample length (cm)' );

	   ###############################################################################
	   #
	   # Example 5. Same as Example 3 but as an embedded chart.
	   #
	   my $chart5 = $workbook->add_chart( type => 'scatter', embedded => 1 );

	   # Configure the series.
	   $chart5->add_series(
	       categories => '=Sheet1!$A$2:$A$7',
	       values	  => '=Sheet1!$B$2:$B$7',
	       name	  => 'Test data series 1',
	   );

	   # Add some labels.
	   $chart5->set_title( name => 'Results of sample analysis' );
	   $chart5->set_x_axis( name => 'Sample number' );
	   $chart5->set_y_axis( name => 'Sample length (cm)' );

	   # Insert the chart into the main worksheet.
	   $worksheet->insert_chart( 'E2', $chart5 );

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/chart_scatter.pl>

   Example: chart_stock.pl
       A simple demo of Stock charts in Spreadsheet::WriteExcel.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # A simple demo of Stock charts in Spreadsheet::WriteExcel.
	   #
	   # reverse('AX'), January 2010, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new( 'chart_stock.xls' );
	   my $worksheet = $workbook->add_worksheet();

	   ###############################################################################
	   #
	   # Set up the data worksheet that the charts will refer to. We read the example
	   # data from the __DATA__ section at the end of the file. This simulates
	   # reading the data from a database or other source.
	   #
	   # The default Excel Stock chart is an Open-High-Low-Close chart. Therefore
	   # we will need data for each of those series.
	   #
	   # The layout of the __DATA__ section is similar to the layout of the worksheet.
	   #

	   # Add some formats.
	   my $bold	   = $workbook->add_format( bold       => 1 );
	   my $date_format = $workbook->add_format( num_format => 'dd/mm/yyyy' );

	   # Increase the width of the column used for date to make it clearer.
	   $worksheet->set_column( 'A:A', 12 );

	   # Read the data from the __DATA__ section at the end. In a real example this
	   # would probably be a database query.
	   my @stock_data;

	   while ( <DATA> ) {
	       next unless /S/;    # Skip blank lines.
	       next if /^#/;	    # Skip comments.

	       push @stock_data, [split];
	   }

	   # Write the data to the worksheet.
	   my $row = 0;
	   my $col = 0;

	   my $headers = shift @stock_data;
	   $worksheet->write( $row++, $col, $headers, $bold );

	   for my $stock_data ( @stock_data ) {

	       my @data = @$stock_data;
	       my $date = shift @data;

	       $worksheet->write( $row, $col, $date, $date_format );
	       $worksheet->write( $row, $col + 1, @data );

	       $row++;
	   }

	   ###############################################################################
	   #
	   # Example 1. A default Open-High-Low-Close chart with series names, axes labels
	   #		and a title.
	   #

	   my $chart1 = $workbook->add_chart( type => 'stock' );

	   # Add a series for each of the Open-High-Low-Close columns. The categories are
	   # the dates in the first column.

	   $chart1->add_series(
	       categories => '=Sheet1!$A$2:$A$10',
	       values	  => '=Sheet1!$B$2:$B$10',
	       name	  => 'Open',
	   );

	   $chart1->add_series(
	       categories => '=Sheet1!$A$2:$A$10',
	       values	  => '=Sheet1!$C$2:$C$10',
	       name	  => 'High',
	   );

	   $chart1->add_series(
	       categories => '=Sheet1!$A$2:$A$10',
	       values	  => '=Sheet1!$D$2:$D$10',
	       name	  => 'Low',
	   );

	   $chart1->add_series(
	       categories => '=Sheet1!$A$2:$A$10',
	       values	  => '=Sheet1!$E$2:$E$10',
	       name	  => 'Close',
	   );

	   # Add a chart title and axes labels.
	   $chart1->set_title( name => 'Open-High-Low-Close', );
	   $chart1->set_x_axis( name => 'Date', );
	   $chart1->set_y_axis( name => 'Share price', );

	   ###############################################################################
	   #
	   # Example 2. Same as the previous as an embedded chart.
	   #

	   my $chart2 = $workbook->add_chart( type => 'stock', embedded => 1 );

	   # Add a series for each of the Open-High-Low-Close columns. The categories are
	   # the dates in the first column.

	   $chart2->add_series(
	       categories => '=Sheet1!$A$2:$A$10',
	       values	  => '=Sheet1!$B$2:$B$10',
	       name	  => 'Open',
	   );

	   $chart2->add_series(
	       categories => '=Sheet1!$A$2:$A$10',
	       values	  => '=Sheet1!$C$2:$C$10',
	       name	  => 'High',
	   );

	   $chart2->add_series(
	       categories => '=Sheet1!$A$2:$A$10',
	       values	  => '=Sheet1!$D$2:$D$10',
	       name	  => 'Low',
	   );

	   $chart2->add_series(
	       categories => '=Sheet1!$A$2:$A$10',
	       values	  => '=Sheet1!$E$2:$E$10',
	       name	  => 'Close',
	   );

	   # Add a chart title and axes labels.
	   $chart2->set_title( name => 'Open-High-Low-Close', );
	   $chart2->set_x_axis( name => 'Date', );
	   $chart2->set_y_axis( name => 'Share price', );

	   # Insert the chart into the main worksheet.
	   $worksheet->insert_chart( 'G2', $chart2 );

	   __DATA__
	   # Some sample stock data used for charting.
	   Date        Open    High    Low     Close
	   2009-08-19  100.00  104.06  95.96   100.34
	   2009-08-20  101.01  109.08  100.50  108.31
	   2009-08-23  110.75  113.48  109.05  109.40
	   2009-08-24  111.24  111.60  103.57  104.87
	   2009-08-25  104.96  108.00  103.88  106.00
	   2009-08-26  104.95  107.95  104.66  107.91
	   2009-08-27  108.10  108.62  105.69  106.15
	   2009-08-30  105.28  105.49  102.01  102.01
	   2009-08-31  102.30  103.71  102.16  102.37

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/chart_stock.pl>

   Example: chess.pl
       Example of formatting using the Spreadsheet::WriteExcel module via property hashes.

       Setting format properties via hashes of values is useful when you have to deal with a large number of similar formats. Consider for example
       a chess board pattern with black squares, white unformatted squares and a border.

       This relatively simple example requires 14 separate Format objects although there are only 5 different properties: black background, top
       border, bottom border, left border and right border.

       Using property hashes it is possible to define these 5 sets of properties and then add them together to create the 14 Format
       configurations.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ########################################################################
	   #
	   # Example of formatting using the Spreadsheet::WriteExcel module via
	   # property hashes.
	   #
	   # Setting format properties via hashes of values is useful when you have
	   # to deal with a large number of similar formats. Consider for example a
	   # chess board pattern with black squares, white unformatted squares and
	   # a border.
	   #
	   # This relatively simple example requires 14 separate Format
	   # objects although there are only 5 different properties: black
	   # background, top border, bottom border, left border and right border.
	   #
	   # Using property hashes it is possible to define these 5 sets of
	   # properties and then add them together to create the 14 Format
	   # configurations.
	   #
	   # reverse('X'), July 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("chess.xls");
	   my $worksheet = $workbook->add_worksheet();

	   # Some row and column formatting
	   $worksheet->set_column('B:I', 10);

	   for my $i (1..8) {
	       $worksheet->set_row($i, 50);
	   }

	   # Define the property hashes
	   #
	   my %black = (
			   'fg_color'  => 'black',
			   'pattern'   => 1,
		       );

	   my %top     = ( 'top'    => 6 );
	   my %bottom  = ( 'bottom' => 6 );
	   my %left    = ( 'left'   => 6 );
	   my %right   = ( 'right'  => 6 );

	   # Define the formats
	   #
	   my $format01 = $workbook->add_format(%top,	 %left		);
	   my $format02 = $workbook->add_format(%top,	 %black 	);
	   my $format03 = $workbook->add_format(%top,			);
	   my $format04 = $workbook->add_format(%top,	 %right, %black );

	   my $format05 = $workbook->add_format(%left			);
	   my $format06 = $workbook->add_format(%black			);
	   my $format07 = $workbook->add_format(			);
	   my $format08 = $workbook->add_format(%right,  %black 	);
	   my $format09 = $workbook->add_format(%right			);
	   my $format10 = $workbook->add_format(%left,	 %black 	);

	   my $format11 = $workbook->add_format(%bottom, %left,  %black );
	   my $format12 = $workbook->add_format(%bottom 		);
	   my $format13 = $workbook->add_format(%bottom, %black 	);
	   my $format14 = $workbook->add_format(%bottom, %right 	);

	   # Draw the pattern
	   $worksheet->write('B2', '', $format01);
	   $worksheet->write('C2', '', $format02);
	   $worksheet->write('D2', '', $format03);
	   $worksheet->write('E2', '', $format02);
	   $worksheet->write('F2', '', $format03);
	   $worksheet->write('G2', '', $format02);
	   $worksheet->write('H2', '', $format03);
	   $worksheet->write('I2', '', $format04);

	   $worksheet->write('B3', '', $format10);
	   $worksheet->write('C3', '', $format07);
	   $worksheet->write('D3', '', $format06);
	   $worksheet->write('E3', '', $format07);
	   $worksheet->write('F3', '', $format06);
	   $worksheet->write('G3', '', $format07);
	   $worksheet->write('H3', '', $format06);
	   $worksheet->write('I3', '', $format09);

	   $worksheet->write('B4', '', $format05);
	   $worksheet->write('C4', '', $format06);
	   $worksheet->write('D4', '', $format07);
	   $worksheet->write('E4', '', $format06);
	   $worksheet->write('F4', '', $format07);
	   $worksheet->write('G4', '', $format06);
	   $worksheet->write('H4', '', $format07);
	   $worksheet->write('I4', '', $format08);

	   $worksheet->write('B5', '', $format10);
	   $worksheet->write('C5', '', $format07);
	   $worksheet->write('D5', '', $format06);
	   $worksheet->write('E5', '', $format07);
	   $worksheet->write('F5', '', $format06);
	   $worksheet->write('G5', '', $format07);
	   $worksheet->write('H5', '', $format06);
	   $worksheet->write('I5', '', $format09);

	   $worksheet->write('B6', '', $format05);
	   $worksheet->write('C6', '', $format06);
	   $worksheet->write('D6', '', $format07);
	   $worksheet->write('E6', '', $format06);
	   $worksheet->write('F6', '', $format07);
	   $worksheet->write('G6', '', $format06);
	   $worksheet->write('H6', '', $format07);
	   $worksheet->write('I6', '', $format08);

	   $worksheet->write('B7', '', $format10);
	   $worksheet->write('C7', '', $format07);
	   $worksheet->write('D7', '', $format06);
	   $worksheet->write('E7', '', $format07);
	   $worksheet->write('F7', '', $format06);
	   $worksheet->write('G7', '', $format07);
	   $worksheet->write('H7', '', $format06);
	   $worksheet->write('I7', '', $format09);

	   $worksheet->write('B8', '', $format05);
	   $worksheet->write('C8', '', $format06);
	   $worksheet->write('D8', '', $format07);
	   $worksheet->write('E8', '', $format06);
	   $worksheet->write('F8', '', $format07);
	   $worksheet->write('G8', '', $format06);
	   $worksheet->write('H8', '', $format07);
	   $worksheet->write('I8', '', $format08);

	   $worksheet->write('B9', '', $format11);
	   $worksheet->write('C9', '', $format12);
	   $worksheet->write('D9', '', $format13);
	   $worksheet->write('E9', '', $format12);
	   $worksheet->write('F9', '', $format13);
	   $worksheet->write('G9', '', $format12);
	   $worksheet->write('H9', '', $format13);
	   $worksheet->write('I9', '', $format14);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/chess.pl>

   Example: colors.pl
       Demonstrates Spreadsheet::WriteExcel's named colors and the Excel color palette.

       The set_custom_color() Worksheet method can be used to override one of the built-in palette values with a more suitable colour. See the
       main docs.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ################################################################################
	   #
	   # Demonstrates Spreadsheet::WriteExcel's named colors and the Excel color
	   # palette.
	   #
	   # The set_custom_color() Worksheet method can be used to override one of the
	   # built-in palette values with a more suitable colour. See the main docs.
	   #
	   # reverse('X'), March 2002, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook = Spreadsheet::WriteExcel->new("colors.xls");

	   # Some common formats
	   my $center  = $workbook->add_format(align => 'center');
	   my $heading = $workbook->add_format(align => 'center', bold => 1);

	   ######################################################################
	   #
	   # Demonstrate the named colors.
	   #

	   my %colors = (
			   0x08, 'black',
			   0x0C, 'blue',
			   0x10, 'brown',
			   0x0F, 'cyan',
			   0x17, 'gray',
			   0x11, 'green',
			   0x0B, 'lime',
			   0x0E, 'magenta',
			   0x12, 'navy',
			   0x35, 'orange',
			   0x21, 'pink',
			   0x14, 'purple',
			   0x0A, 'red',
			   0x16, 'silver',
			   0x09, 'white',
			   0x0D, 'yellow',
			);

	   my $worksheet1 = $workbook->add_worksheet('Named colors');

	   $worksheet1->set_column(0, 3, 15);

	   $worksheet1->write(0, 0, "Index", $heading);
	   $worksheet1->write(0, 1, "Index", $heading);
	   $worksheet1->write(0, 2, "Name",  $heading);
	   $worksheet1->write(0, 3, "Color", $heading);

	   my $i = 1;

	   while (my($index, $color) = each %colors) {
	       my $format = $workbook->add_format(
						   fg_color => $color,
						   pattern  => 1,
						   border   => 1
						);

	       $worksheet1->write($i+1, 0, $index,		      $center);
	       $worksheet1->write($i+1, 1, sprintf("0x%02X", $index), $center);
	       $worksheet1->write($i+1, 2, $color,		      $center);
	       $worksheet1->write($i+1, 3, '',			      $format);
	       $i++;
	   }

	   ######################################################################
	   #
	   # Demonstrate the standard Excel colors in the range 8..63.
	   #

	   my $worksheet2 = $workbook->add_worksheet('Standard colors');

	   $worksheet2->set_column(0, 3, 15);

	   $worksheet2->write(0, 0, "Index", $heading);
	   $worksheet2->write(0, 1, "Index", $heading);
	   $worksheet2->write(0, 2, "Color", $heading);
	   $worksheet2->write(0, 3, "Name",  $heading);

	   for my $i (8..63) {
	       my $format = $workbook->add_format(
						   fg_color => $i,
						   pattern  => 1,
						   border   => 1
						);

	       $worksheet2->write(($i -7), 0, $i,		     $center);
	       $worksheet2->write(($i -7), 1, sprintf("0x%02X", $i), $center);
	       $worksheet2->write(($i -7), 2, '',		     $format);

	       # Add the  color names
	       if (exists $colors{$i}) {
		   $worksheet2->write(($i -7), 3, $colors{$i}, $center);

	       }
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/colors.pl>

   Example: comments1.pl
       This example demonstrates writing cell comments.

       A cell comment is indicated in Excel by a small red triangle in the upper right-hand corner of the cell.

       For more advanced comment options see comments2.pl.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # This example demonstrates writing cell comments.
	   #
	   # A cell comment is indicated in Excel by a small red triangle in the upper
	   # right-hand corner of the cell.
	   #
	   # For more advanced comment options see comments2.pl.
	   #
	   # reverse('X'), November 2005, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("comments1.xls");
	   my $worksheet = $workbook->add_worksheet();

	   $worksheet->write	    ('A1', 'Hello'	      );
	   $worksheet->write_comment('A1', 'This is a comment');

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/comments1.pl>

   Example: comments2.pl
       This example demonstrates writing cell comments.

       A cell comment is indicated in Excel by a small red triangle in the upper right-hand corner of the cell.

       Each of the worksheets demonstrates different features of cell comments.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # This example demonstrates writing cell comments.
	   #
	   # A cell comment is indicated in Excel by a small red triangle in the upper
	   # right-hand corner of the cell.
	   #
	   # Each of the worksheets demonstrates different features of cell comments.
	   #
	   # reverse('X'), November 2005, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook   = Spreadsheet::WriteExcel->new("comments2.xls");
	   my $text_wrap  = $workbook->add_format(text_wrap => 1, valign => 'top');
	   my $worksheet1 = $workbook->add_worksheet();
	   my $worksheet2 = $workbook->add_worksheet();
	   my $worksheet3 = $workbook->add_worksheet();
	   my $worksheet4 = $workbook->add_worksheet();
	   my $worksheet5 = $workbook->add_worksheet();
	   my $worksheet6 = $workbook->add_worksheet();
	   my $worksheet7 = $workbook->add_worksheet();
	   my $worksheet8 = $workbook->add_worksheet();

	   # Variables that we will use in each example.
	   my $cell_text = '';
	   my $comment	 = '';

	   ###############################################################################
	   #
	   # Example 1. Demonstrates a simple cell comment without formatting and Unicode
	   #		comments encoded as UTF-16 and as UTF-8.
	   #

	   # Set up some formatting.
	   $worksheet1->set_column('C:C', 25);
	   $worksheet1->set_row(2, 50);
	   $worksheet1->set_row(5, 50);

	   # Simple ascii string.
	   $cell_text = 'Hold the mouse over this cell to see the comment.';

	   $comment   = 'This is a comment.';

	   $worksheet1->write	     ('C3', $cell_text, $text_wrap);
	   $worksheet1->write_comment('C3', $comment);

	   # UTF-16 string.
	   $cell_text = 'This is a UTF-16 comment.';

	   $comment   = pack "n", 0x263a;

	   $worksheet1->write	     ('C6', $cell_text, $text_wrap);
	   $worksheet1->write_comment('C6', $comment, encoding => 1);

	   # UTF-8 string in perl 5.8.
	   if ($] >= 5.008) {

	       $worksheet1->set_row(8, 50);
	       $cell_text = 'This is a UTF-8 string.';
	       $comment   = chr 0x263a;

	       $worksheet1->write	 ('C9', $cell_text, $text_wrap);
	       $worksheet1->write_comment('C9', $comment);
	   }

	   ###############################################################################
	   #
	   # Example 2. Demonstrates visible and hidden comments.
	   #

	   # Set up some formatting.
	   $worksheet2->set_column('C:C', 25);
	   $worksheet2->set_row(2, 50);
	   $worksheet2->set_row(5, 50);

	   $cell_text = 'This cell comment is visible.';

	   $comment   = 'Hello.';

	   $worksheet2->write	     ('C3', $cell_text, $text_wrap);
	   $worksheet2->write_comment('C3', $comment, visible => 1);

	   $cell_text = "This cell comment isn't visible (the default).";

	   $comment   = 'Hello.';

	   $worksheet2->write	     ('C6', $cell_text, $text_wrap);
	   $worksheet2->write_comment('C6', $comment);

	   ###############################################################################
	   #
	   # Example 3. Demonstrates visible and hidden comments set at the worksheet
	   #		level.
	   #

	   # Set up some formatting.
	   $worksheet3->set_column('C:C', 25);
	   $worksheet3->set_row(2, 50);
	   $worksheet3->set_row(5, 50);
	   $worksheet3->set_row(8, 50);

	   # Make all comments on the worksheet visible.
	   $worksheet3->show_comments();

	   $cell_text = 'This cell comment is visible, explicitly.';

	   $comment   = 'Hello.';

	   $worksheet3->write	     ('C3', $cell_text, $text_wrap);
	   $worksheet3->write_comment('C3', $comment, visible => 1);

	   $cell_text = 'This cell comment is also visible because '.
			'we used show_comments().';

	   $comment   = 'Hello.';

	   $worksheet3->write	     ('C6', $cell_text, $text_wrap);
	   $worksheet3->write_comment('C6', $comment);

	   $cell_text = 'However, we can still override it locally.';

	   $comment   = 'Hello.';

	   $worksheet3->write	     ('C9', $cell_text, $text_wrap);
	   $worksheet3->write_comment('C9', $comment, visible => 0);

	   ###############################################################################
	   #
	   # Example 4. Demonstrates changes to the comment box dimensions.
	   #

	   # Set up some formatting.
	   $worksheet4->set_column('C:C', 25);
	   $worksheet4->set_row(2,  50);
	   $worksheet4->set_row(5,  50);
	   $worksheet4->set_row(8,  50);
	   $worksheet4->set_row(15, 50);

	   $worksheet4->show_comments();

	   $cell_text = 'This cell comment is default size.';

	   $comment   = 'Hello.';

	   $worksheet4->write	     ('C3', $cell_text, $text_wrap);
	   $worksheet4->write_comment('C3', $comment);

	   $cell_text = 'This cell comment is twice as wide.';

	   $comment   = 'Hello.';

	   $worksheet4->write	     ('C6', $cell_text, $text_wrap);
	   $worksheet4->write_comment('C6', $comment, x_scale => 2);

	   $cell_text = 'This cell comment is twice as high.';

	   $comment   = 'Hello.';

	   $worksheet4->write	     ('C9', $cell_text, $text_wrap);
	   $worksheet4->write_comment('C9', $comment, y_scale => 2);

	   $cell_text = 'This cell comment is scaled in both directions.';

	   $comment   = 'Hello.';

	   $worksheet4->write	     ('C16', $cell_text, $text_wrap);
	   $worksheet4->write_comment('C16', $comment, x_scale => 1.2, y_scale => 0.8);

	   $cell_text = 'This cell comment has width and height specified in pixels.';

	   $comment   = 'Hello.';

	   $worksheet4->write	     ('C19', $cell_text, $text_wrap);
	   $worksheet4->write_comment('C19', $comment, width => 200, height => 20);

	   ###############################################################################
	   #
	   # Example 5. Demonstrates changes to the cell comment position.
	   #

	   $worksheet5->set_column('C:C', 25);
	   $worksheet5->set_row(2, 50);
	   $worksheet5->set_row(5, 50);
	   $worksheet5->set_row(8, 50);
	   $worksheet5->set_row(11, 50);

	   $worksheet5->show_comments();

	   $cell_text = 'This cell comment is in the default position.';

	   $comment   = 'Hello.';

	   $worksheet5->write	     ('C3', $cell_text, $text_wrap);
	   $worksheet5->write_comment('C3', $comment);

	   $cell_text = 'This cell comment has been moved to another cell.';

	   $comment   = 'Hello.';

	   $worksheet5->write	     ('C6', $cell_text, $text_wrap);
	   $worksheet5->write_comment('C6', $comment, start_cell => 'E4');

	   $cell_text = 'This cell comment has been moved to another cell.';

	   $comment   = 'Hello.';

	   $worksheet5->write	     ('C9', $cell_text, $text_wrap);
	   $worksheet5->write_comment('C9', $comment, start_row => 8, start_col => 4);

	   $cell_text = 'This cell comment has been shifted within its default cell.';

	   $comment   = 'Hello.';

	   $worksheet5->write	     ('C12', $cell_text, $text_wrap);
	   $worksheet5->write_comment('C12', $comment, x_offset => 30, y_offset => 12);

	   ###############################################################################
	   #
	   # Example 6. Demonstrates changes to the comment background colour.
	   #

	   $worksheet6->set_column('C:C', 25);
	   $worksheet6->set_row(2, 50);
	   $worksheet6->set_row(5, 50);
	   $worksheet6->set_row(8, 50);

	   $worksheet6->show_comments();

	   $cell_text = 'This cell comment has a different colour.';

	   $comment   = 'Hello.';

	   $worksheet6->write	     ('C3', $cell_text, $text_wrap);
	   $worksheet6->write_comment('C3', $comment, color => 'green');

	   $cell_text = 'This cell comment has the default colour.';

	   $comment   = 'Hello.';

	   $worksheet6->write	     ('C6', $cell_text, $text_wrap);
	   $worksheet6->write_comment('C6', $comment);

	   $cell_text = 'This cell comment has a different colour.';

	   $comment   = 'Hello.';

	   $worksheet6->write	     ('C9', $cell_text, $text_wrap);
	   $worksheet6->write_comment('C9', $comment, color => 0x35);

	   ###############################################################################
	   #
	   # Example 7. Demonstrates how to set the cell comment author.
	   #

	   $worksheet7->set_column('C:C', 30);
	   $worksheet7->set_row(2,  50);
	   $worksheet7->set_row(5,  50);
	   $worksheet7->set_row(8,  50);
	   $worksheet7->set_row(11, 50);

	   my $author = '';
	   my $cell   = 'C3';

	   $cell_text = "Move the mouse over this cell and you will see 'Cell commented ".
			"by $author' (blank) in the status bar at the bottom";

	   $comment   = 'Hello.';

	   $worksheet7->write	     ($cell, $cell_text, $text_wrap);
	   $worksheet7->write_comment($cell, $comment);

	   $author    = 'Perl';
	   $cell      = 'C6';
	   $cell_text = "Move the mouse over this cell and you will see 'Cell commented ".
			"by $author' in the status bar at the bottom";

	   $comment   = 'Hello.';

	   $worksheet7->write	     ($cell, $cell_text, $text_wrap);
	   $worksheet7->write_comment($cell, $comment, author => $author);

	   $author    = pack "n", 0x20AC; # UTF-16 Euro
	   $cell      = 'C9';
	   $cell_text = "Move the mouse over this cell and you will see 'Cell commented ".
			"by Euro' in the status bar at the bottom";

	   $comment   = 'Hello.';

	   $worksheet7->write	     ($cell, $cell_text, $text_wrap);
	   $worksheet7->write_comment($cell, $comment, author	       => $author,
						       author_encoding => 1	 );

	   # UTF-8 string in perl 5.8.
	   if ($] >= 5.008) {
	       $author	  = chr 0x20AC;
	       $cell	  = 'C12';
	       $cell_text = "Move the mouse over this cell and you will see 'Cell commented ".
			    "by $author' in the status bar at the bottom";
	       $comment   = 'Hello.';

	       $worksheet7->write	 ($cell, $cell_text, $text_wrap);
	       $worksheet7->write_comment($cell, $comment, author => $author);

	   }

	   ###############################################################################
	   #
	   # Example 8. Demonstrates the need to explicitly set the row height.
	   #

	   # Set up some formatting.
	   $worksheet8->set_column('C:C', 25);
	   $worksheet8->set_row(2, 80);

	   $worksheet8->show_comments();

	   $cell_text = 'The height of this row has been adjusted explicitly using ' .
			'set_row(). The size of the comment box is adjusted '	      .
			'accordingly by WriteExcel.';

	   $comment   = 'Hello.';

	   $worksheet8->write	     ('C3', $cell_text, $text_wrap);
	   $worksheet8->write_comment('C3', $comment);

	   $cell_text = 'The height of this row has been adjusted by Excel due to the '  .
			'text wrap property being set. Unfortunately this means that '	 .
			'the height of the row is unknown to WriteExcel at run time '	 .
			"and thus the comment box is stretched as well.

"		 .
			'Use set_row() to specify the row height explicitly to avoid '	 .
			'this problem.';

	   $comment   = 'Hello.';

	   $worksheet8->write	     ('C6', $cell_text, $text_wrap);
	   $worksheet8->write_comment('C6', $comment);

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/comments2.pl>

   Example: copyformat.pl
       Example of how to use the format copying method with Spreadsheet::WriteExcel.

       This feature isn't required very often.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to use the format copying method with Spreadsheet::WriteExcel.
	   #
	   # This feature isn't required very often.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create workbook1
	   my $workbook1       = Spreadsheet::WriteExcel->new("workbook1.xls");
	   my $worksheet1      = $workbook1->add_worksheet();
	   my $format1a        = $workbook1->add_format();
	   my $format1b        = $workbook1->add_format();

	   # Create workbook2
	   my $workbook2       = Spreadsheet::WriteExcel->new("workbook2.xls");
	   my $worksheet2      = $workbook2->add_worksheet();
	   my $format2a        = $workbook2->add_format();
	   my $format2b        = $workbook2->add_format();

	   # Create a global format object that isn't tied to a workbook
	   my $global_format   = Spreadsheet::WriteExcel::Format->new();

	   # Set the formatting
	   $global_format->set_color('blue');
	   $global_format->set_bold();
	   $global_format->set_italic();

	   # Create another example format
	   $format1b->set_color('red');

	   # Copy the global format properties to the worksheet formats
	   $format1a->copy($global_format);
	   $format2a->copy($global_format);

	   # Copy a format from worksheet1 to worksheet2
	   $format2b->copy($format1b);

	   # Write some output
	   $worksheet1->write(0, 0, "Ciao", $format1a);
	   $worksheet1->write(1, 0, "Ciao", $format1b);

	   $worksheet2->write(0, 0, "Hello", $format2a);
	   $worksheet2->write(1, 0, "Hello", $format2b);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/copyformat.pl>

   Example: data_validate.pl
       Example of how to add data validation and dropdown lists to a Spreadsheet::WriteExcel file.

       Data validation is a feature of Excel which allows you to restrict the data that a users enters in a cell and to display help and warning
       messages. It also allows you to restrict input to values in a drop down list.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to add data validation and dropdown lists to a
	   # Spreadsheet::WriteExcel file.
	   #
	   # Data validation is a feature of Excel which allows you to restrict the data
	   # that a users enters in a cell and to display help and warning messages. It
	   # also allows you to restrict input to values in a drop down list.
	   #
	   # reverse('X'), August 2008, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new('data_validate.xls');
	   my $worksheet = $workbook->add_worksheet();

	   # Add a format for the header cells.
	   my $header_format = $workbook->add_format(
						       border	   => 1,
						       bg_color    => 43,
						       bold	   => 1,
						       text_wrap   => 1,
						       valign	   => 'vcenter',
						       indent	   => 1,
						    );

	   # Set up layout of the worksheet.
	   $worksheet->set_column('A:A', 64);
	   $worksheet->set_column('B:B', 15);
	   $worksheet->set_column('D:D', 15);
	   $worksheet->set_row(0, 36);
	   $worksheet->set_selection('B3');

	   # Write the header cells and some data that will be used in the examples.
	   my $row = 0;
	   my $txt;
	   my $heading1 = 'Some examples of data validation in Spreadsheet::WriteExcel';
	   my $heading2 = 'Enter values in this column';
	   my $heading3 = 'Sample Data';

	   $worksheet->write('A1', $heading1, $header_format);
	   $worksheet->write('B1', $heading2, $header_format);
	   $worksheet->write('D1', $heading3, $header_format);

	   $worksheet->write('D3', ['Integers',   1, 10]);
	   $worksheet->write('D4', ['List data', 'open', 'high', 'close']);
	   $worksheet->write('D5', ['Formula',	 '=AND(F5=50,G5=60)', 50, 60]);

	   #
	   # Example 1. Limiting input to an integer in a fixed range.
	   #
	   $txt = 'Enter an integer between 1 and 10';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	   => 'integer',
		   criteria	   => 'between',
		   minimum	   => 1,
		   maximum	   => 10,
	       });

	   #
	   # Example 2. Limiting input to an integer outside a fixed range.
	   #
	   $txt = 'Enter an integer that is not between 1 and 10 (using cell references)';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	   => 'integer',
		   criteria	   => 'not between',
		   minimum	   => '=E3',
		   maximum	   => '=F3',
	       });

	   #
	   # Example 3. Limiting input to an integer greater than a fixed value.
	   #
	   $txt = 'Enter an integer greater than 0';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	   => 'integer',
		   criteria	   => '>',
		   value	   => 0,
	       });

	   #
	   # Example 4. Limiting input to an integer less than a fixed value.
	   #
	   $txt = 'Enter an integer less than 10';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	   => 'integer',
		   criteria	   => '<',
		   value	   => 10,
	       });

	   #
	   # Example 5. Limiting input to a decimal in a fixed range.
	   #
	   $txt = 'Enter a decimal between 0.1 and 0.5';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	   => 'decimal',
		   criteria	   => 'between',
		   minimum	   => 0.1,
		   maximum	   => 0.5,
	       });

	   #
	   # Example 6. Limiting input to a value in a dropdown list.
	   #
	   $txt = 'Select a value from a drop down list';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	   => 'list',
		   source	   => ['open', 'high', 'close'],
	       });

	   #
	   # Example 6. Limiting input to a value in a dropdown list.
	   #
	   $txt = 'Select a value from a drop down list (using a cell range)';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	   => 'list',
		   source	   => '=E4:G4',
	       });

	   #
	   # Example 7. Limiting input to a date in a fixed range.
	   #
	   $txt = 'Enter a date between 1/1/2008 and 12/12/2008';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	   => 'date',
		   criteria	   => 'between',
		   minimum	   => '2008-01-01T',
		   maximum	   => '2008-12-12T',
	       });

	   #
	   # Example 8. Limiting input to a time in a fixed range.
	   #
	   $txt = 'Enter a time between 6:00 and 12:00';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	   => 'time',
		   criteria	   => 'between',
		   minimum	   => 'T06:00',
		   maximum	   => 'T12:00',
	       });

	   #
	   # Example 9. Limiting input to a string greater than a fixed length.
	   #
	   $txt = 'Enter a string longer than 3 characters';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	   => 'length',
		   criteria	   => '>',
		   value	   => 3,
	       });

	   #
	   # Example 10. Limiting input based on a formula.
	   #
	   $txt = 'Enter a value if the following is true "=AND(F5=50,G5=60)"';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	   => 'custom',
		   value	   => '=AND(F5=50,G5=60)',
	       });

	   #
	   # Example 11. Displaying and modify data validation messages.
	   #
	   $txt = 'Displays a message when you select the cell';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	 => 'integer',
		   criteria	 => 'between',
		   minimum	 => 1,
		   maximum	 => 100,
		   input_title	 => 'Enter an integer:',
		   input_message => 'between 1 and 100',
	       });

	   #
	   # Example 12. Displaying and modify data validation messages.
	   #
	   $txt = 'Display a custom error message when integer isn't between 1 and 100';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	 => 'integer',
		   criteria	 => 'between',
		   minimum	 => 1,
		   maximum	 => 100,
		   input_title	 => 'Enter an integer:',
		   input_message => 'between 1 and 100',
		   error_title	 => 'Input value is not valid!',
		   error_message => 'It should be an integer between 1 and 100',
	       });

	   #
	   # Example 13. Displaying and modify data validation messages.
	   #
	   $txt = 'Display a custom information message when integer isn't between 1 and 100';
	   $row += 2;

	   $worksheet->write($row, 0, $txt);
	   $worksheet->data_validation($row, 1,
	       {
		   validate	 => 'integer',
		   criteria	 => 'between',
		   minimum	 => 1,
		   maximum	 => 100,
		   input_title	 => 'Enter an integer:',
		   input_message => 'between 1 and 100',
		   error_title	 => 'Input value is not valid!',
		   error_message => 'It should be an integer between 1 and 100',
		   error_type	 => 'information',
	       });

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/data_validate.pl>

   Example: date_time.pl
       Spreadsheet::WriteExcel example of writing dates and times using the write_date_time() Worksheet method.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Spreadsheet::WriteExcel example of writing dates and times using the
	   # write_date_time() Worksheet method.
	   #
	   # reverse('X'), August 2004, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new("date_time.xls");
	   my $worksheet = $workbook->add_worksheet();
	   my $bold	 = $workbook->add_format(bold => 1);
	   my $row	 = 0;

	   # Expand the first column so that the date is visible.
	   $worksheet->set_column("A:B", 30);

	   # Write the column headers
	   $worksheet->write('A1', 'Formatted date', $bold);
	   $worksheet->write('B1', 'Format',	     $bold);

	   # Examples date and time formats. In the output file compare how changing
	   # the format codes change the appearance of the date.
	   #
	   my @date_formats = (
	       'dd/mm/yy',
	       'mm/dd/yy',
	       '',
	       'd mm yy',
	       'dd mm yy',
	       '',
	       'dd m yy',
	       'dd mm yy',
	       'dd mmm yy',
	       'dd mmmm yy',
	       '',
	       'dd mm y',
	       'dd mm yyy',
	       'dd mm yyyy',
	       '',
	       'd mmmm yyyy',
	       '',
	       'dd/mm/yy',
	       'dd/mm/yy hh:mm',
	       'dd/mm/yy hh:mm:ss',
	       'dd/mm/yy hh:mm:ss.000',
	       '',
	       'hh:mm',
	       'hh:mm:ss',
	       'hh:mm:ss.000',
	   );

	   # Write the same date and time using each of the above formats. The empty
	   # string formats create a blank line to make the example clearer.
	   #
	   for my $date_format (@date_formats) {
	       $row++;
	       next if $date_format eq '';

	       # Create a format for the date or time.
	       my $format =  $workbook->add_format(
						   num_format => $date_format,
						   align      => 'left'
						  );

	       # Write the same date using different formats.
	       $worksheet->write_date_time($row, 0, '2004-08-01T12:30:45.123', $format);
	       $worksheet->write	  ($row, 1, $date_format);
	   }

	   # The following is an example of an invalid date. It is written as a string
	   # instead of a number. This is also Excel's default behaviour.
	   #
	   $row += 2;
	   $worksheet->write_date_time($row, 0, '2004-13-01T12:30:45.123');
	   $worksheet->write	      ($row, 1, 'Invalid date. Written as string.', $bold);

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/date_time.pl>

   Example: defined_name.pl
       Example of how to create defined names in a Spreadsheet::WriteExcel file.

       This method is used to defined a name that can be used to represent a value, a single cell or a range of cells in a workbook.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to create defined names in a Spreadsheet::WriteExcel file.
	   #
	   # This method is used to defined a name that can be used to represent a value,
	   # a single cell or a range of cells in a workbook.
	   #
	   # reverse('X'), September 2008, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook   = Spreadsheet::WriteExcel->new('defined_name.xls');
	   my $worksheet1 = $workbook->add_worksheet();
	   my $worksheet2 = $workbook->add_worksheet();

	   $workbook->define_name('Exchange_rate', '=0.96');
	   $workbook->define_name('Sales',	   '=Sheet1!$G$1:$H$10');
	   $workbook->define_name('Sheet2!Sales',  '=Sheet2!$G$1:$G$10');

	   for my $worksheet ($workbook->sheets()) {
	       $worksheet->set_column('A:A', 45);
	       $worksheet->write('A2', 'This worksheet contains some defined names,');
	       $worksheet->write('A3', 'See the Insert -> Name -> Define dialog.');

	   }

	   $worksheet1->write('A4', '=Exchange_rate');

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/defined_name.pl>

   Example: diag_border.pl
       A simple formatting example that demonstrates how to add a diagonal cell border with Spreadsheet::WriteExcel

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple formatting example that demonstrates how to add a diagonal cell
	   # border with Spreadsheet::WriteExcel
	   #
	   # reverse('X'), May 2004, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new('diag_border.xls');
	   my $worksheet = $workbook->add_worksheet();

	   my $format1	 = $workbook->add_format(diag_type	 => '1');

	   my $format2	 = $workbook->add_format(diag_type	 => '2');

	   my $format3	 = $workbook->add_format(diag_type	 => '3');

	   my $format4	 = $workbook->add_format(
						 diag_type	 => '3',
						 diag_border	 => '7',
						 diag_color	 => 'red',
						);

	   $worksheet->write('B3',  'Text', $format1);
	   $worksheet->write('B6',  'Text', $format2);
	   $worksheet->write('B9',  'Text', $format3);
	   $worksheet->write('B12', 'Text', $format4);

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/diag_border.pl>

   Example: easter_egg.pl
       This uses the Win32::OLE module to expose the Flight Simulator easter egg in Excel 97 SR2.

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # This uses the Win32::OLE module to expose the Flight Simulator easter egg
	   # in Excel 97 SR2.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Win32::OLE;

	   my $application = Win32::OLE->new("Excel.Application");
	   my $workbook    = $application->Workbooks->Add;
	   my $worksheet   = $workbook->Worksheets(1);

	   $application->{Visible} = 1;

	   $worksheet->Range("L97:X97")->Select;
	   $worksheet->Range("M97")->Activate;

	   my $message =  "Hold down Shift and Ctrl and click the ".
			  "Chart Wizard icon on the toolbar.

".
			  "Use the mouse motion and buttons to control ".
			  "movement. Try to find the monolith. ".
			  "Close this dialog first.";

	   $application->InputBox($message);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/easter_egg.pl>

   Example: filehandle.pl
       Example of using Spreadsheet::WriteExcel to write Excel files to different filehandles.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of using Spreadsheet::WriteExcel to write Excel files to
	   # different filehandles.
	   #
	   # reverse('X'), April 2003, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;
	   use IO::Scalar;

	   ###############################################################################
	   #
	   # Example 1. This demonstrates the standard way of creating an Excel file by
	   # specifying a file name.
	   #

	   my $workbook1  = Spreadsheet::WriteExcel->new('fh_01.xls');
	   my $worksheet1 = $workbook1->add_worksheet();

	   $worksheet1->write(0, 0,  "Hi Excel!");

	   ###############################################################################
	   #
	   # Example 2. Write an Excel file to an existing filehandle.
	   #

	   open    TEST, "> fh_02.xls" or die "Couldn't open file: $!";
	   binmode TEST; # Always do this regardless of whether the platform requires it.

	   my $workbook2  = Spreadsheet::WriteExcel->new(*TEST);
	   my $worksheet2 = $workbook2->add_worksheet();

	   $worksheet2->write(0, 0,  "Hi Excel!");

	   ###############################################################################
	   #
	   # Example 3. Write an Excel file to an existing OO style filehandle.
	   #

	   my $fh = FileHandle->new("> fh_03.xls")
		    or die "Couldn't open file: $!";

	   binmode($fh);

	   my $workbook3  = Spreadsheet::WriteExcel->new($fh);
	   my $worksheet3 = $workbook3->add_worksheet();

	   $worksheet3->write(0, 0,  "Hi Excel!");

	   ###############################################################################
	   #
	   # Example 4. Write an Excel file to a string via IO::Scalar. Please refer to
	   # the IO::Scalar documentation for further details.
	   #

	   my $xls_str;

	   tie *XLS, 'IO::Scalar', $xls_str;

	   my $workbook4  = Spreadsheet::WriteExcel->new(*XLS);
	   my $worksheet4 = $workbook4->add_worksheet();

	   $worksheet4->write(0, 0, "Hi Excel 4");
	   $workbook4->close(); # This is required before we use the scalar

	   # The Excel file is now in $xls_str. As a demonstration, print it to a file.
	   open    TMP, "> fh_04.xls" or die "Couldn't open file: $!";
	   binmode TMP;
	   print   TMP	$xls_str;
	   close   TMP;

	   ###############################################################################
	   #
	   # Example 5. Write an Excel file to a string via IO::Scalar's newer interface.
	   # Please refer to the IO::Scalar documentation for further details.
	   #
	   my $xls_str2;

	   my $fh5 = IO::Scalar->new($xls_str2);

	   my $workbook5  = Spreadsheet::WriteExcel->new($fh5);
	   my $worksheet5 = $workbook5->add_worksheet();

	   $worksheet5->write(0, 0, "Hi Excel 5");
	   $workbook5->close(); # This is required before we use the scalar

	   # The Excel file is now in $xls_str. As a demonstration, print it to a file.
	   open    TMP, "> fh_05.xls" or die "Couldn't open file: $!";
	   binmode TMP;
	   print   TMP	$xls_str2;
	   close   TMP;

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/filehandle.pl>

   Example: formula_result.pl
       Example of how to write Spreadsheet::WriteExcel formulas with a user specified result.

       This is generally only required when writing a spreadsheet for an application other than Excel where the formula isn't evaluated.

       Source code for this example:

	   #!/usr/bin/perl -w

	   #######################################################################
	   #
	   # Example of how to write Spreadsheet::WriteExcel formulas with a user
	   # specified result.
	   #
	   # This is generally only required when writing a spreadsheet for an
	   # application other than Excel where the formula isn't evaluated.
	   #
	   # reverse('X'), August 2005, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new('formula_result.xls');
	   my $worksheet = $workbook->add_worksheet();
	   my $format	 = $workbook->add_format(color => 'blue');

	   $worksheet->write('A1', '=1+2');
	   $worksheet->write('A2', '=1+2',		       $format, 4);
	   $worksheet->write('A3', '="ABC"',		       undef,	'DEF');
	   $worksheet->write('A4', '=IF(A1 > 1, TRUE, FALSE)', undef,	'TRUE');
	   $worksheet->write('A5', '=1/0',		       undef,	'#DIV/0!');

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/formula_result.pl>

   Example: headers.pl
       This program shows several examples of how to set up headers and footers with Spreadsheet::WriteExcel.

       The control characters used in the header/footer strings are:

	   Control	       Category 	   Description
	   =======	       ======== 	   ===========
	   &L		       Justification	   Left
	   &C					   Center
	   &R					   Right

	   &P		       Information	   Page number
	   &N					   Total number of pages
	   &D					   Date
	   &T					   Time
	   &F					   File name
	   &A					   Worksheet name

	   &fontsize	       Font		   Font size
	   &"font,style"			   Font name and style
	   &U					   Single underline
	   &E					   Double underline
	   &S					   Strikethrough
	   &X					   Superscript
	   &Y					   Subscript

	   &&		       Miscellaneous	   Literal ampersand &

       See the main Spreadsheet::WriteExcel documentation for more information.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ######################################################################
	   #
	   # This program shows several examples of how to set up headers and
	   # footers with Spreadsheet::WriteExcel.
	   #
	   # The control characters used in the header/footer strings are:
	   #
	   #	 Control	     Category		 Description
	   #	 =======	     ========		 ===========
	   #	 &L		     Justification	 Left
	   #	 &C					 Center
	   #	 &R					 Right
	   #
	   #	 &P		     Information	 Page number
	   #	 &N					 Total number of pages
	   #	 &D					 Date
	   #	 &T					 Time
	   #	 &F					 File name
	   #	 &A					 Worksheet name
	   #
	   #	 &fontsize	     Font		 Font size
	   #	 &"font,style"				 Font name and style
	   #	 &U					 Single underline
	   #	 &E					 Double underline
	   #	 &S					 Strikethrough
	   #	 &X					 Superscript
	   #	 &Y					 Subscript
	   #
	   #	 &&		     Miscellaneous	 Literal ampersand &
	   #
	   # See the main Spreadsheet::WriteExcel documentation for more information.
	   #
	   # reverse('X'), March 2002, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("headers.xls");
	   my $preview	 = "Select Print Preview to see the header and footer";

	   ######################################################################
	   #
	   # A simple example to start
	   #
	   my $worksheet1  = $workbook->add_worksheet('Simple');

	   my $header1	   = '&CHere is some centred text.';

	   my $footer1	   = '&LHere is some left aligned text.';

	   $worksheet1->set_header($header1);
	   $worksheet1->set_footer($footer1);

	   $worksheet1->set_column('A:A', 50);
	   $worksheet1->write('A1', $preview);

	   ######################################################################
	   #
	   # This is an example of some of the header/footer variables.
	   #
	   my $worksheet2  = $workbook->add_worksheet('Variables');

	   my $header2	   = '&LPage &P of &N'.
			     '&CFilename: &F' .
			     '&RSheetname: &A';

	   my $footer2	   = '&LCurrent date: &D'.
			     '&RCurrent time: &T';

	   $worksheet2->set_header($header2);
	   $worksheet2->set_footer($footer2);

	   $worksheet2->set_column('A:A', 50);
	   $worksheet2->write('A1', $preview);
	   $worksheet2->write('A21', "Next sheet");
	   $worksheet2->set_h_pagebreaks(20);

	   ######################################################################
	   #
	   # This example shows how to use more than one font
	   #
	   my $worksheet3 = $workbook->add_worksheet('Mixed fonts');

	   my $header3	  = '&C' .
			    '&"Courier New,Bold"Hello ' .
			    '&"Arial,Italic"World';

	   my $footer3	  = '&C' .
			    '&"Symbol"e' .
			    '&"Arial" = mc&X2';

	   $worksheet3->set_header($header3);
	   $worksheet3->set_footer($footer3);

	   $worksheet3->set_column('A:A', 50);
	   $worksheet3->write('A1', $preview);

	   ######################################################################
	   #
	   # Example of line wrapping
	   #
	   my $worksheet4 = $workbook->add_worksheet('Word wrap');

	   my $header4	  = "&CHeading 1
Heading 2
Heading 3";

	   $worksheet4->set_header($header4);

	   $worksheet4->set_column('A:A', 50);
	   $worksheet4->write('A1', $preview);

	   ######################################################################
	   #
	   # Example of inserting a literal ampersand &
	   #
	   my $worksheet5 = $workbook->add_worksheet('Ampersand');

	   my $header5	  = "&CCuriouser && Curiouser - Attorneys at Law";

	   $worksheet5->set_header($header5);

	   $worksheet5->set_column('A:A', 50);
	   $worksheet5->write('A1', $preview);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/headers.pl>

   Example: hide_sheet.pl
       Example of how to hide a worksheet with Spreadsheet::WriteExcel.

       Source code for this example:

	   #!/usr/bin/perl -w

	   #######################################################################
	   #
	   # Example of how to hide a worksheet with Spreadsheet::WriteExcel.
	   #
	   # reverse('X'), April 2005, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook   = Spreadsheet::WriteExcel->new('hidden.xls');
	   my $worksheet1 = $workbook->add_worksheet();
	   my $worksheet2 = $workbook->add_worksheet();
	   my $worksheet3 = $workbook->add_worksheet();

	   # Sheet2 won't be visible until it is unhidden in Excel.
	   $worksheet2->hide();

	   $worksheet1->write(0, 0, 'Sheet2 is hidden');
	   $worksheet2->write(0, 0, 'How did you find me?');
	   $worksheet3->write(0, 0, 'Sheet2 is hidden');

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/hide_sheet.pl>

   Example: hyperlink1.pl
       Example of how to use the WriteExcel module to write hyperlinks.

       See also hyperlink2.pl for worksheet URL examples.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to use the WriteExcel module to write hyperlinks.
	   #
	   # See also hyperlink2.pl for worksheet URL examples.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new("hyperlink.xls");
	   my $worksheet = $workbook->add_worksheet('Hyperlinks');

	   # Format the first column
	   $worksheet->set_column('A:A', 30);
	   $worksheet->set_selection('B1');

	   # Add a sample format
	   my $format = $workbook->add_format();
	   $format->set_size(12);
	   $format->set_bold();
	   $format->set_color('red');
	   $format->set_underline();

	   # Write some hyperlinks
	   $worksheet->write('A1', 'http://www.perl.com/'		 );
	   $worksheet->write('A3', 'http://www.perl.com/', 'Perl home'	 );
	   $worksheet->write('A5', 'http://www.perl.com/', undef, $format);
	   $worksheet->write('A7', 'mailto:jmcnamara@cpan.org', 'Mail me');

	   # Write a URL that isn't a hyperlink
	   $worksheet->write_string('A9', 'http://www.perl.com/');

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/hyperlink1.pl>

   Example: hyperlink2.pl
       Example of how to use the WriteExcel module to write internal and internal hyperlinks.

       If you wish to run this program and follow the hyperlinks you should create the following directory structure:

	   C: -- Temp --+-- Europe
			 |
			 -- Asia

       See also hyperlink1.pl for web URL examples.

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to use the WriteExcel module to write internal and internal
	   # hyperlinks.
	   #
	   # If you wish to run this program and follow the hyperlinks you should create
	   # the following directory structure:
	   #
	   #	 C: -- Temp --+-- Europe
	   #		       |
	   #		       -- Asia
	   #
	   #
	   # See also hyperlink1.pl for web URL examples.
	   #
	   # reverse('X'), February 2002, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create three workbooks:
	   #   C:TempEuropeIreland.xls
	   #   C:TempEuropeItaly.xls
	   #   C:TempAsiaChina.xls
	   #
	   my $ireland	 = Spreadsheet::WriteExcel->new('C:TempEuropeIreland.xls');
	   my $ire_links = $ireland->add_worksheet('Links');
	   my $ire_sales = $ireland->add_worksheet('Sales');
	   my $ire_data  = $ireland->add_worksheet('Product Data');

	   my $italy	 = Spreadsheet::WriteExcel->new('C:TempEuropeItaly.xls');
	   my $ita_links = $italy->add_worksheet('Links');
	   my $ita_sales = $italy->add_worksheet('Sales');
	   my $ita_data  = $italy->add_worksheet('Product Data');

	   my $china	 = Spreadsheet::WriteExcel->new('C:TempAsiaChina.xls');
	   my $cha_links = $china->add_worksheet('Links');
	   my $cha_sales = $china->add_worksheet('Sales');
	   my $cha_data  = $china->add_worksheet('Product Data');

	   # Add a format
	   my $format = $ireland->add_format(color => 'green', bold => 1);
	   $ire_links->set_column('A:B', 25);

	   ###############################################################################
	   #
	   # Examples of internal links
	   #
	   $ire_links->write('A1', 'Internal links', $format);

	   # Internal link
	   $ire_links->write('A2', 'internal:Sales!A2');

	   # Internal link to a range
	   $ire_links->write('A3', 'internal:Sales!A3:D3');

	   # Internal link with an alternative string
	   $ire_links->write('A4', 'internal:Sales!A4', 'Link');

	   # Internal link with a format
	   $ire_links->write('A5', 'internal:Sales!A5', $format);

	   # Internal link with an alternative string and format
	   $ire_links->write('A6', 'internal:Sales!A6', 'Link', $format);

	   # Internal link (spaces in worksheet name)
	   $ire_links->write('A7', q{internal:'Product Data'!A7});

	   ###############################################################################
	   #
	   # Examples of external links
	   #
	   $ire_links->write('B1', 'External links', $format);

	   # External link to a local file
	   $ire_links->write('B2', 'external:Italy.xls');

	   # External link to a local file with worksheet
	   $ire_links->write('B3', 'external:Italy.xls#Sales!B3');

	   # External link to a local file with worksheet and alternative string
	   $ire_links->write('B4', 'external:Italy.xls#Sales!B4', 'Link');

	   # External link to a local file with worksheet and format
	   $ire_links->write('B5', 'external:Italy.xls#Sales!B5', $format);

	   # External link to a remote file, absolute path
	   $ire_links->write('B6', 'external:c:/Temp/Asia/China.xls');

	   # External link to a remote file, relative path
	   $ire_links->write('B7', 'external:../Asia/China.xls');

	   # External link to a remote file with worksheet
	   $ire_links->write('B8', 'external:c:/Temp/Asia/China.xls#Sales!B8');

	   # External link to a remote file with worksheet (with spaces in the name)
	   $ire_links->write('B9', q{external:c:/Temp/Asia/China.xls#'Product Data'!B9});

	   ###############################################################################
	   #
	   # Some utility links to return to the main sheet
	   #
	   $ire_sales->write('A2', 'internal:Links!A2', 'Back');
	   $ire_sales->write('A3', 'internal:Links!A3', 'Back');
	   $ire_sales->write('A4', 'internal:Links!A4', 'Back');
	   $ire_sales->write('A5', 'internal:Links!A5', 'Back');
	   $ire_sales->write('A6', 'internal:Links!A6', 'Back');
	   $ire_data-> write('A7', 'internal:Links!A7', 'Back');

	   $ita_links->write('A1', 'external:Ireland.xls#Links!B2', 'Back');
	   $ita_sales->write('B3', 'external:Ireland.xls#Links!B3', 'Back');
	   $ita_sales->write('B4', 'external:Ireland.xls#Links!B4', 'Back');
	   $ita_sales->write('B5', 'external:Ireland.xls#Links!B5', 'Back');
	   $cha_links->write('A1', 'external:../Europe/Ireland.xls#Links!B6', 'Back');
	   $cha_sales->write('B8', 'external:../Europe/Ireland.xls#Links!B8', 'Back');
	   $cha_data-> write('B9', 'external:../Europe/Ireland.xls#Links!B9', 'Back');

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/hyperlink2.pl>

   Example: images.pl
       Example of how to insert images into an Excel worksheet using the Spreadsheet::WriteExcel insert_image() method.

       Source code for this example:

	   #!/usr/bin/perl -w

	   #######################################################################
	   #
	   # Example of how to insert images into an Excel worksheet using the
	   # Spreadsheet::WriteExcel insert_image() method.
	   #
	   # reverse('X'), October 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook called simple.xls and add a worksheet
	   my $workbook   = Spreadsheet::WriteExcel->new("images.xls");
	   my $worksheet1 = $workbook->add_worksheet('Image 1');
	   my $worksheet2 = $workbook->add_worksheet('Image 2');
	   my $worksheet3 = $workbook->add_worksheet('Image 3');
	   my $worksheet4 = $workbook->add_worksheet('Image 4');

	   # Insert a basic image
	   $worksheet1->write('A10', "Image inserted into worksheet.");
	   $worksheet1->insert_image('A1', 'republic.png');

	   # Insert an image with an offset
	   $worksheet2->write('A10', "Image inserted with an offset.");
	   $worksheet2->insert_image('A1', 'republic.png', 32, 10);

	   # Insert a scaled image
	   $worksheet3->write('A10', "Image scaled: width x 2, height x 0.8.");
	   $worksheet3->insert_image('A1', 'republic.png', 0, 0, 2, 0.8);

	   # Insert an image over varied column and row sizes
	   # This does not require any additional work

	   # Set the cols and row sizes
	   # NOTE: you must do this before you call insert_image()
	   $worksheet4->set_column('A:A', 5);
	   $worksheet4->set_column('B:B', undef, undef, 1); # Hidden
	   $worksheet4->set_column('C:D', 10);
	   $worksheet4->set_row(0, 30);
	   $worksheet4->set_row(3, 5);

	   $worksheet4->write('A10', "Image inserted over scaled rows and columns.");
	   $worksheet4->insert_image('A1', 'republic.png');

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/images.pl>

   Example: indent.pl
       A simple formatting example using Spreadsheet::WriteExcel.

       This program demonstrates the indentation cell format.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple formatting example using Spreadsheet::WriteExcel.
	   #
	   # This program demonstrates the indentation cell format.
	   #
	   # reverse('X'), May 2004, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new('indent.xls');

	   my $worksheet = $workbook->add_worksheet();
	   my $indent1	 = $workbook->add_format(indent => 1);
	   my $indent2	 = $workbook->add_format(indent => 2);

	   $worksheet->set_column('A:A', 40);

	   $worksheet->write('A1', "This text is indented 1 level",  $indent1);
	   $worksheet->write('A2', "This text is indented 2 levels", $indent2);

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/indent.pl>

   Example: merge1.pl
       Simple example of merging cells using the Spreadsheet::WriteExcel module.

       This example merges three cells using the "Centre Across Selection" alignment which was the Excel 5 method of achieving a merge. For a more
       modern approach use the merge_range() worksheet method instead.	See the merge3.pl - merge6.pl programs.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Simple example of merging cells using the Spreadsheet::WriteExcel module.
	   #
	   # This example merges three cells using the "Centre Across Selection"
	   # alignment which was the Excel 5 method of achieving a merge. For a more
	   # modern approach use the merge_range() worksheet method instead.
	   # See the merge3.pl - merge6.pl programs.
	   #
	   # reverse('X'), August 2002, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new("merge1.xls");
	   my $worksheet = $workbook->add_worksheet();

	   # Increase the cell size of the merged cells to highlight the formatting.
	   $worksheet->set_column('B:D', 20);
	   $worksheet->set_row(2, 30);

	   # Create a merge format
	   my $format = $workbook->add_format(center_across => 1);

	   # Only one cell should contain text, the others should be blank.
	   $worksheet->write	  (2, 1, "Center across selection", $format);
	   $worksheet->write_blank(2, 2,		 $format);
	   $worksheet->write_blank(2, 3,		 $format);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/merge1.pl>

   Example: merge2.pl
       Simple example of merging cells using the Spreadsheet::WriteExcel module

       This example merges three cells using the "Centre Across Selection" alignment which was the Excel 5 method of achieving a merge. For a more
       modern approach use the merge_range() worksheet method instead.	See the merge3.pl - merge6.pl programs.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Simple example of merging cells using the Spreadsheet::WriteExcel module
	   #
	   # This example merges three cells using the "Centre Across Selection"
	   # alignment which was the Excel 5 method of achieving a merge. For a more
	   # modern approach use the merge_range() worksheet method instead.
	   # See the merge3.pl - merge6.pl programs.
	   #
	   # reverse('X'), August 2002, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new("merge2.xls");
	   my $worksheet = $workbook->add_worksheet();

	   # Increase the cell size of the merged cells to highlight the formatting.
	   $worksheet->set_column(1, 2, 30);
	   $worksheet->set_row(2, 40);

	   # Create a merged format
	   my $format = $workbook->add_format(
						   center_across   => 1,
						   bold 	   => 1,
						   size 	   => 15,
						   pattern	   => 1,
						   border	   => 6,
						   color	   => 'white',
						   fg_color	   => 'green',
						   border_color    => 'yellow',
						   align	   => 'vcenter',
					     );

	   # Only one cell should contain text, the others should be blank.
	   $worksheet->write	  (2, 1, "Center across selection", $format);
	   $worksheet->write_blank(2, 2,			    $format);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/merge2.pl>

   Example: merge3.pl
       Example of how to use Spreadsheet::WriteExcel to write a hyperlink in a merged cell. There are two options write_url_range() with a
       standard merge format or merge_range().

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to use Spreadsheet::WriteExcel to write a hyperlink in a
	   # merged cell. There are two options write_url_range() with a standard merge
	   # format or merge_range().
	   #
	   # reverse('X'), September 2002, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new('merge3.xls');
	   my $worksheet = $workbook->add_worksheet();

	   # Increase the cell size of the merged cells to highlight the formatting.
	   $worksheet->set_row($_, 30) for (1, 3, 6, 7);
	   $worksheet->set_column('B:D', 20);

	   ###############################################################################
	   #
	   # Example 1: Merge cells containing a hyperlink using write_url_range()
	   # and the standard Excel 5+ merge property.
	   #
	   my $format1 = $workbook->add_format(
					       center_across   => 1,
					       border	       => 1,
					       underline       => 1,
					       color	       => 'blue',
					    );

	   # Write the cells to be merged
	   $worksheet->write_url_range('B2:D2', 'http://www.perl.com', $format1);
	   $worksheet->write_blank('C2', $format1);
	   $worksheet->write_blank('D2', $format1);

	   ###############################################################################
	   #
	   # Example 2: Merge cells containing a hyperlink using merge_range().
	   #
	   my $format2 = $workbook->add_format(
					       border	   => 1,
					       underline   => 1,
					       color	   => 'blue',
					       align	   => 'center',
					       valign	   => 'vcenter',
					     );

	   # Merge 3 cells
	   $worksheet->merge_range('B4:D4', 'http://www.perl.com', $format2);

	   # Merge 3 cells over two rows
	   $worksheet->merge_range('B7:D8', 'http://www.perl.com', $format2);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/merge3.pl>

   Example: merge4.pl
       Example of how to use the Spreadsheet::WriteExcel merge_range() workbook method with complex formatting.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to use the Spreadsheet::WriteExcel merge_range() workbook
	   # method with complex formatting.
	   #
	   # reverse('X'), September 2002, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new('merge4.xls');
	   my $worksheet = $workbook->add_worksheet();

	   # Increase the cell size of the merged cells to highlight the formatting.
	   $worksheet->set_row($_, 30) for (1..11);
	   $worksheet->set_column('B:D', 20);

	   ###############################################################################
	   #
	   # Example 1: Text centered vertically and horizontally
	   #
	   my $format1 = $workbook->add_format(
					       border  => 6,
					       bold    => 1,
					       color   => 'red',
					       valign  => 'vcenter',
					       align   => 'center',
					      );

	   $worksheet->merge_range('B2:D3', 'Vertical and horizontal', $format1);

	   ###############################################################################
	   #
	   # Example 2: Text aligned to the top and left
	   #
	   my $format2 = $workbook->add_format(
					       border  => 6,
					       bold    => 1,
					       color   => 'red',
					       valign  => 'top',
					       align   => 'left',
					     );

	   $worksheet->merge_range('B5:D6', 'Aligned to the top and left', $format2);

	   ###############################################################################
	   #
	   # Example 3:  Text aligned to the bottom and right
	   #
	   my $format3 = $workbook->add_format(
					       border  => 6,
					       bold    => 1,
					       color   => 'red',
					       valign  => 'bottom',
					       align   => 'right',
					     );

	   $worksheet->merge_range('B8:D9', 'Aligned to the bottom and right', $format3);

	   ###############################################################################
	   #
	   # Example 4:  Text justified (i.e. wrapped) in the cell
	   #
	   my $format4 = $workbook->add_format(
					       border  => 6,
					       bold    => 1,
					       color   => 'red',
					       valign  => 'top',
					       align   => 'justify',
					     );

	   $worksheet->merge_range('B11:D12', 'Justified: '.'so on and ' x18, $format4);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/merge4.pl>

   Example: merge5.pl
       Example of how to use the Spreadsheet::WriteExcel merge_cells() workbook method with complex formatting and rotation.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to use the Spreadsheet::WriteExcel merge_cells() workbook
	   # method with complex formatting and rotation.
	   #
	   #
	   # reverse('X'), September 2002, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new('merge5.xls');
	   my $worksheet = $workbook->add_worksheet();

	   # Increase the cell size of the merged cells to highlight the formatting.
	   $worksheet->set_row($_, 36)	       for (3..8);
	   $worksheet->set_column($_, $_ , 15) for (1,3,5);

	   ###############################################################################
	   #
	   # Rotation 1, letters run from top to bottom
	   #
	   my $format1 = $workbook->add_format(
					       border	   => 6,
					       bold	   => 1,
					       color	   => 'red',
					       valign	   => 'vcentre',
					       align	   => 'centre',
					       rotation    => 270,
					     );

	   $worksheet->merge_range('B4:B9', 'Rotation 270', $format1);

	   ###############################################################################
	   #
	   # Rotation 2, 90X anticlockwise
	   #
	   my $format2 = $workbook->add_format(
					       border	   => 6,
					       bold	   => 1,
					       color	   => 'red',
					       valign	   => 'vcentre',
					       align	   => 'centre',
					       rotation    => 90,
					     );

	   $worksheet->merge_range('D4:D9', 'Rotation 90X', $format2);

	   ###############################################################################
	   #
	   # Rotation 3, 90X clockwise
	   #
	   my $format3 = $workbook->add_format(
					       border	   => 6,
					       bold	   => 1,
					       color	   => 'red',
					       valign	   => 'vcentre',
					       align	   => 'centre',
					       rotation    => -90,
					     );

	   $worksheet->merge_range('F4:F9', 'Rotation -90X', $format3);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/merge5.pl>

   Example: merge6.pl
       Example of how to use the Spreadsheet::WriteExcel merge_cells() workbook method with Unicode strings.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to use the Spreadsheet::WriteExcel merge_cells() workbook
	   # method with Unicode strings.
	   #
	   #
	   # reverse('X'), December 2005, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new('merge6.xls');
	   my $worksheet = $workbook->add_worksheet();

	   # Increase the cell size of the merged cells to highlight the formatting.
	   $worksheet->set_row($_, 36) for 2..9;
	   $worksheet->set_column('B:D', 25);

	   # Format for the merged cells.
	   my $format = $workbook->add_format(
					       border	   => 6,
					       bold	   => 1,
					       color	   => 'red',
					       size	   => 20,
					       valign	   => 'vcentre',
					       align	   => 'left',
					       indent	   => 1,
					     );

	   ###############################################################################
	   #
	   # Write an Ascii string.
	   #

	   $worksheet->merge_range('B3:D4', 'ASCII: A simple string', $format);

	   ###############################################################################
	   #
	   # Write a UTF-16 Unicode string.
	   #

	   # A phrase in Cyrillic encoded as UTF-16BE.
	   my $utf16_str = pack "H*", '005500540046002d00310036003a0020'.
				      '042d0442043e002004440440043004370430002004'.
				      '3d043000200440044304410441043a043e043c0021';

	   # Note the extra parameter at the end to indicate UTF-16 encoding.
	   $worksheet->merge_range('B6:D7', $utf16_str, $format, 1);

	   ###############################################################################
	   #
	   # Write a UTF-8 Unicode string.
	   #

	   if ($] >= 5.008) {
	       my $smiley = chr 0x263a;
	       $worksheet->merge_range('B9:D10', "UTF-8: A Unicode smiley $smiley",
						  $format);
	   }
	   else {
	       $worksheet->merge_range('B9:D10', "UTF-8: Requires Perl 5.8", $format);
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/merge6.pl>

   Example: mod_perl1.pl
       Example of how to use the Spreadsheet::WriteExcel module to send an Excel file to a browser using mod_perl 1 and Apache

       This module ties *XLS directly to Apache, and with the correct content-disposition/types it will prompt the user to save the file, or open
       it at this location.

       This script is a modification of the Spreadsheet::WriteExcel cgi.pl example.

       Change the name of this file to Cgi.pm.	Change the package location to where ever you locate this package.  In the example below it is
       located in the WriteExcel directory.

       Your httpd.conf entry for this module, should you choose to use it as a stand alone app, should look similar to the following:

	   <Location /spreadsheet-test>
	     SetHandler perl-script
	     PerlHandler Spreadsheet::WriteExcel::Cgi
	     PerlSendHeader On
	   </Location>

       The PerlHandler name above and the package name below *have* to match.

	   ###############################################################################
	   #
	   # Example of how to use the Spreadsheet::WriteExcel module to send an Excel
	   # file to a browser using mod_perl 1 and Apache
	   #
	   # This module ties *XLS directly to Apache, and with the correct
	   # content-disposition/types it will prompt the user to save
	   # the file, or open it at this location.
	   #
	   # This script is a modification of the Spreadsheet::WriteExcel cgi.pl example.
	   #
	   # Change the name of this file to Cgi.pm.
	   # Change the package location to where ever you locate this package.
	   # In the example below it is located in the WriteExcel directory.
	   #
	   # Your httpd.conf entry for this module, should you choose to use it
	   # as a stand alone app, should look similar to the following:
	   #
	   #	 <Location /spreadsheet-test>
	   #	   SetHandler perl-script
	   #	   PerlHandler Spreadsheet::WriteExcel::Cgi
	   #	   PerlSendHeader On
	   #	 </Location>
	   #
	   # The PerlHandler name above and the package name below *have* to match.

	   # Apr 2001, Thomas Sullivan, webmaster@860.org
	   # Feb 2001, John McNamara, jmcnamara@cpan.org

	   package Spreadsheet::WriteExcel::Cgi;

	   ##########################################
	   # Pragma Definitions
	   ##########################################
	   use strict;

	   ##########################################
	   # Required Modules
	   ##########################################
	   use Apache::Constants qw(:common);
	   use Apache::Request;
	   use Apache::URI; # This may not be needed
	   use Spreadsheet::WriteExcel;

	   ##########################################
	   # Main App Body
	   ##########################################
	   sub handler {
	       # New apache object
	       # Should you decide to use it.
	       my $r = Apache::Request->new(shift);

	       # Set the filename and send the content type
	       # This will appear when they save the spreadsheet
	       my $filename ="cgitest.xls";

	       ####################################################
	       ## Send the content type headers
	       ####################################################
	       print "Content-disposition: attachment;filename=$filename
";
	       print "Content-type: application/vnd.ms-excel

";

	       ####################################################
	       # Tie a filehandle to Apache's STDOUT.
	       # Create a new workbook and add a worksheet.
	       ####################################################
	       tie *XLS => 'Apache';
	       binmode(*XLS);

	       my $workbook  = Spreadsheet::WriteExcel->new(*XLS);
	       my $worksheet = $workbook->add_worksheet();

	       # Set the column width for column 1
	       $worksheet->set_column(0, 0, 20);

	       # Create a format
	       my $format = $workbook->add_format();
	       $format->set_bold();
	       $format->set_size(15);
	       $format->set_color('blue');

	       # Write to the workbook
	       $worksheet->write(0, 0, "Hi Excel!", $format);

	       # You must close the workbook for Content-disposition
	       $workbook->close();
	   }

	   1;

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/mod_perl1.pl>

   Example: mod_perl2.pl
       Example of how to use the Spreadsheet::WriteExcel module to send an Excel file to a browser using mod_perl 2 and Apache.

       This module ties *XLS directly to Apache, and with the correct content-disposition/types it will prompt the user to save the file, or open
       it at this location.

       This script is a modification of the Spreadsheet::WriteExcel cgi.pl example.

       Change the name of this file to MP2Test.pm.  Change the package location to where ever you locate this package.	In the example below it is
       located in the WriteExcel directory.

       Your httpd.conf entry for this module, should you choose to use it as a stand alone app, should look similar to the following:

	   PerlModule Apache2::RequestRec
	   PerlModule APR::Table
	   PerlModule Apache2::RequestIO

	   <Location /spreadsheet-test>
	      SetHandler perl-script
	      PerlResponseHandler Spreadsheet::WriteExcel::MP2Test
	   </Location>

       The PerlResponseHandler must match the package name below.

	   ###############################################################################
	   #
	   # Example of how to use the Spreadsheet::WriteExcel module to send an Excel
	   # file to a browser using mod_perl 2 and Apache.
	   #
	   # This module ties *XLS directly to Apache, and with the correct
	   # content-disposition/types it will prompt the user to save
	   # the file, or open it at this location.
	   #
	   # This script is a modification of the Spreadsheet::WriteExcel cgi.pl example.
	   #
	   # Change the name of this file to MP2Test.pm.
	   # Change the package location to where ever you locate this package.
	   # In the example below it is located in the WriteExcel directory.
	   #
	   # Your httpd.conf entry for this module, should you choose to use it
	   # as a stand alone app, should look similar to the following:
	   #
	   #	 PerlModule Apache2::RequestRec
	   #	 PerlModule APR::Table
	   #	 PerlModule Apache2::RequestIO
	   #
	   #	 <Location /spreadsheet-test>
	   #	    SetHandler perl-script
	   #	    PerlResponseHandler Spreadsheet::WriteExcel::MP2Test
	   #	 </Location>
	   #
	   # The PerlResponseHandler must match the package name below.

	   # Jun 2004, Matisse Enzer, matisse@matisse.net  (mod_perl 2 version)
	   # Apr 2001, Thomas Sullivan, webmaster@860.org
	   # Feb 2001, John McNamara, jmcnamara@cpan.org

	   package Spreadsheet::WriteExcel::MP2Test;

	   ##########################################
	   # Pragma Definitions
	   ##########################################
	   use strict;

	   ##########################################
	   # Required Modules
	   ##########################################
	   use Apache2::Const -compile => qw( :common );
	   use Spreadsheet::WriteExcel;

	   ##########################################
	   # Main App Body
	   ##########################################
	   sub handler {
	       my($r) = @_;  # Apache request object is passed to handler in mod_perl 2

	       # Set the filename and send the content type
	       # This will appear when they save the spreadsheet
	       my $filename ="mod_perl2_test.xls";

	       ####################################################
	       ## Send the content type headers the mod_perl 2 way
	       ####################################################
	       $r->headers_out->{'Content-Disposition'} = "attachment;filename=$filename";
	       $r->content_type('application/vnd.ms-excel');

	       ####################################################
	       # Tie a filehandle to Apache's STDOUT.
	       # Create a new workbook and add a worksheet.
	       ####################################################
	       tie *XLS => $r;	# The mod_perl 2 way. Tie to the Apache::RequestRec object
	       binmode(*XLS);

	       my $workbook  = Spreadsheet::WriteExcel->new(*XLS);
	       my $worksheet = $workbook->add_worksheet();

	       # Set the column width for column 1
	       $worksheet->set_column(0, 0, 20);

	       # Create a format
	       my $format = $workbook->add_format();
	       $format->set_bold();
	       $format->set_size(15);
	       $format->set_color('blue');

	       # Write to the workbook
	       $worksheet->write(0, 0, 'Hi Excel! from ' . $r->hostname , $format);

	       # You must close the workbook for Content-disposition
	       $workbook->close();
	       return Apache2::Const::OK;
	   }

	   1;

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/mod_perl2.pl>

   Example: outline.pl
       Example of how use Spreadsheet::WriteExcel to generate Excel outlines and grouping.

       Excel allows you to group rows or columns so that they can be hidden or displayed with a single mouse click. This feature is referred to as
       outlines.

       Outlines can reduce complex data down to a few salient sub-totals or summaries.

       This feature is best viewed in Excel but the following is an ASCII representation of what a worksheet with three outlines might look like.
       Rows 3-4 and rows 7-8 are grouped at level 2. Rows 2-9 are grouped at level 1. The lines at the left hand side are called outline level
       bars.

		   ------------------------------------------
	    1 2 3 |   |   A   |   B   |   C   |   D   |  ...
		   ------------------------------------------
	     _	  | 1 |   A   |       |       |       |  ...
	    |  _  | 2 |   B   |       |       |       |  ...
	    | |   | 3 |  (C)  |       |       |       |  ...
	    | |   | 4 |  (D)  |       |       |       |  ...
	    | -   | 5 |   E   |       |       |       |  ...
	    |  _  | 6 |   F   |       |       |       |  ...
	    | |   | 7 |  (G)  |       |       |       |  ...
	    | |   | 8 |  (H)  |       |       |       |  ...
	    | -   | 9 |   I   |       |       |       |  ...
	    -	  | . |  ...  |  ...  |  ...  |  ...  |  ...

       Clicking the minus sign on each of the level 2 outlines will collapse and hide the data as shown in the next figure. The minus sign changes
       to a plus sign to indicate that the data in the outline is hidden.

		   ------------------------------------------
	    1 2 3 |   |   A   |   B   |   C   |   D   |  ...
		   ------------------------------------------
	     _	  | 1 |   A   |       |       |       |  ...
	    |	  | 2 |   B   |       |       |       |  ...
	    | +   | 5 |   E   |       |       |       |  ...
	    |	  | 6 |   F   |       |       |       |  ...
	    | +   | 9 |   I   |       |       |       |  ...
	    -	  | . |  ...  |  ...  |  ...  |  ...  |  ...

       Clicking on the minus sign on the level 1 outline will collapse the remaining rows as follows:

		   ------------------------------------------
	    1 2 3 |   |   A   |   B   |   C   |   D   |  ...
		   ------------------------------------------
		  | 1 |   A   |       |       |       |  ...
	    +	  | . |  ...  |  ...  |  ...  |  ...  |  ...

       See the main Spreadsheet::WriteExcel documentation for more information.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how use Spreadsheet::WriteExcel to generate Excel outlines and
	   # grouping.
	   #
	   #
	   # Excel allows you to group rows or columns so that they can be hidden or
	   # displayed with a single mouse click. This feature is referred to as outlines.
	   #
	   # Outlines can reduce complex data down to a few salient sub-totals or
	   # summaries.
	   #
	   # This feature is best viewed in Excel but the following is an ASCII
	   # representation of what a worksheet with three outlines might look like.
	   # Rows 3-4 and rows 7-8 are grouped at level 2. Rows 2-9 are grouped at
	   # level 1. The lines at the left hand side are called outline level bars.
	   #
	   #
	   #		 ------------------------------------------
	   #	  1 2 3 |   |	A   |	B   |	C   |	D   |  ...
	   #		 ------------------------------------------
	   #	   _	| 1 |	A   |	    |	    |	    |  ...
	   #	  |  _	| 2 |	B   |	    |	    |	    |  ...
	   #	  | |	| 3 |  (C)  |	    |	    |	    |  ...
	   #	  | |	| 4 |  (D)  |	    |	    |	    |  ...
	   #	  | -	| 5 |	E   |	    |	    |	    |  ...
	   #	  |  _	| 6 |	F   |	    |	    |	    |  ...
	   #	  | |	| 7 |  (G)  |	    |	    |	    |  ...
	   #	  | |	| 8 |  (H)  |	    |	    |	    |  ...
	   #	  | -	| 9 |	I   |	    |	    |	    |  ...
	   #	  -	| . |  ...  |  ...  |  ...  |  ...  |  ...
	   #
	   #
	   # Clicking the minus sign on each of the level 2 outlines will collapse and
	   # hide the data as shown in the next figure. The minus sign changes to a plus
	   # sign to indicate that the data in the outline is hidden.
	   #
	   #		 ------------------------------------------
	   #	  1 2 3 |   |	A   |	B   |	C   |	D   |  ...
	   #		 ------------------------------------------
	   #	   _	| 1 |	A   |	    |	    |	    |  ...
	   #	  |	| 2 |	B   |	    |	    |	    |  ...
	   #	  | +	| 5 |	E   |	    |	    |	    |  ...
	   #	  |	| 6 |	F   |	    |	    |	    |  ...
	   #	  | +	| 9 |	I   |	    |	    |	    |  ...
	   #	  -	| . |  ...  |  ...  |  ...  |  ...  |  ...
	   #
	   #
	   # Clicking on the minus sign on the level 1 outline will collapse the remaining
	   # rows as follows:
	   #
	   #		 ------------------------------------------
	   #	  1 2 3 |   |	A   |	B   |	C   |	D   |  ...
	   #		 ------------------------------------------
	   #		| 1 |	A   |	    |	    |	    |  ...
	   #	  +	| . |  ...  |  ...  |  ...  |  ...  |  ...
	   #
	   # See the main Spreadsheet::WriteExcel documentation for more information.
	   #
	   # reverse('X'), April 2003, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add some worksheets
	   my $workbook   = Spreadsheet::WriteExcel->new('outline.xls');
	   my $worksheet1 = $workbook->add_worksheet('Outlined Rows');
	   my $worksheet2 = $workbook->add_worksheet('Collapsed Rows');
	   my $worksheet3 = $workbook->add_worksheet('Outline Columns');
	   my $worksheet4 = $workbook->add_worksheet('Outline levels');

	   # Add a general format
	   my $bold = $workbook->add_format(bold => 1);

	   ###############################################################################
	   #
	   # Example 1: Create a worksheet with outlined rows. It also includes SUBTOTAL()
	   # functions so that it looks like the type of automatic outlines that are
	   # generated when you use the Excel Data->SubTotals menu item.
	   #

	   # For outlines the important parameters are $hidden and $level. Rows with the
	   # same $level are grouped together. The group will be collapsed if $hidden is
	   # non-zero. $height and $XF are assigned default values if they are undef.
	   #
	   # The syntax is: set_row($row, $height, $XF, $hidden, $level, $collapsed)
	   #
	   $worksheet1->set_row(1,  undef, undef, 0, 2);
	   $worksheet1->set_row(2,  undef, undef, 0, 2);
	   $worksheet1->set_row(3,  undef, undef, 0, 2);
	   $worksheet1->set_row(4,  undef, undef, 0, 2);
	   $worksheet1->set_row(5,  undef, undef, 0, 1);

	   $worksheet1->set_row(6,  undef, undef, 0, 2);
	   $worksheet1->set_row(7,  undef, undef, 0, 2);
	   $worksheet1->set_row(8,  undef, undef, 0, 2);
	   $worksheet1->set_row(9,  undef, undef, 0, 2);
	   $worksheet1->set_row(10, undef, undef, 0, 1);

	   # Add a column format for clarity
	   $worksheet1->set_column('A:A', 20);

	   # Add the data, labels and formulas
	   $worksheet1->write('A1',  'Region', $bold);
	   $worksheet1->write('A2',  'North');
	   $worksheet1->write('A3',  'North');
	   $worksheet1->write('A4',  'North');
	   $worksheet1->write('A5',  'North');
	   $worksheet1->write('A6',  'North Total', $bold);

	   $worksheet1->write('B1',  'Sales',  $bold);
	   $worksheet1->write('B2',  1000);
	   $worksheet1->write('B3',  1200);
	   $worksheet1->write('B4',  900);
	   $worksheet1->write('B5',  1200);
	   $worksheet1->write('B6',  '=SUBTOTAL(9,B2:B5)', $bold);

	   $worksheet1->write('A7',  'South');
	   $worksheet1->write('A8',  'South');
	   $worksheet1->write('A9',  'South');
	   $worksheet1->write('A10', 'South');
	   $worksheet1->write('A11', 'South Total', $bold);

	   $worksheet1->write('B7',  400);
	   $worksheet1->write('B8',  600);
	   $worksheet1->write('B9',  500);
	   $worksheet1->write('B10', 600);
	   $worksheet1->write('B11', '=SUBTOTAL(9,B7:B10)', $bold);

	   $worksheet1->write('A12', 'Grand Total', $bold);
	   $worksheet1->write('B12', '=SUBTOTAL(9,B2:B10)', $bold);

	   ###############################################################################
	   #
	   # Example 2: Create a worksheet with outlined rows. This is the same as the
	   # previous example except that the rows are collapsed.
	   # Note: We need to indicate the row that contains the collapsed symbol '+'
	   # with the optional parameter, $collapsed.

	   # The group will be collapsed if $hidden is non-zero.
	   # The syntax is: set_row($row, $height, $XF, $hidden, $level, $collapsed)
	   #
	   $worksheet2->set_row(1,  undef, undef, 1, 2);
	   $worksheet2->set_row(2,  undef, undef, 1, 2);
	   $worksheet2->set_row(3,  undef, undef, 1, 2);
	   $worksheet2->set_row(4,  undef, undef, 1, 2);
	   $worksheet2->set_row(5,  undef, undef, 1, 1);

	   $worksheet2->set_row(6,  undef, undef, 1, 2);
	   $worksheet2->set_row(7,  undef, undef, 1, 2);
	   $worksheet2->set_row(8,  undef, undef, 1, 2);
	   $worksheet2->set_row(9,  undef, undef, 1, 2);
	   $worksheet2->set_row(10, undef, undef, 1, 1);
	   $worksheet2->set_row(11, undef, undef, 0, 0, 1);

	   # Add a column format for clarity
	   $worksheet2->set_column('A:A', 20);

	   # Add the data, labels and formulas
	   $worksheet2->write('A1',  'Region', $bold);
	   $worksheet2->write('A2',  'North');
	   $worksheet2->write('A3',  'North');
	   $worksheet2->write('A4',  'North');
	   $worksheet2->write('A5',  'North');
	   $worksheet2->write('A6',  'North Total', $bold);

	   $worksheet2->write('B1',  'Sales',  $bold);
	   $worksheet2->write('B2',  1000);
	   $worksheet2->write('B3',  1200);
	   $worksheet2->write('B4',  900);
	   $worksheet2->write('B5',  1200);
	   $worksheet2->write('B6',  '=SUBTOTAL(9,B2:B5)', $bold);

	   $worksheet2->write('A7',  'South');
	   $worksheet2->write('A8',  'South');
	   $worksheet2->write('A9',  'South');
	   $worksheet2->write('A10', 'South');
	   $worksheet2->write('A11', 'South Total', $bold);

	   $worksheet2->write('B7',  400);
	   $worksheet2->write('B8',  600);
	   $worksheet2->write('B9',  500);
	   $worksheet2->write('B10', 600);
	   $worksheet2->write('B11', '=SUBTOTAL(9,B7:B10)', $bold);

	   $worksheet2->write('A12', 'Grand Total', $bold);
	   $worksheet2->write('B12', '=SUBTOTAL(9,B2:B10)', $bold);

	   ###############################################################################
	   #
	   # Example 3: Create a worksheet with outlined columns.
	   #
	   my $data = [
		       ['Month', 'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun',' Total'],
		       ['North', 50,	20,    15,    25,    65,    80,    ,'=SUM(B2:G2)'],
		       ['South', 10,	20,    30,    50,    50,    50,    ,'=SUM(B3:G3)'],
		       ['East',  45,	75,    50,    15,    75,    100,   ,'=SUM(B4:G4)'],
		       ['West',  15,	15,    55,    35,    20,    50,    ,'=SUM(B5:G6)'],
		      ];

	   # Add bold format to the first row
	   $worksheet3->set_row(0, undef, $bold);

	   # Syntax: set_column($col1, $col2, $width, $XF, $hidden, $level, $collapsed)
	   $worksheet3->set_column('A:A', 10, $bold	 );
	   $worksheet3->set_column('B:G', 5,  undef, 0, 1);
	   $worksheet3->set_column('H:H', 10);

	   # Write the data and a formula
	   $worksheet3->write_col('A1', $data);
	   $worksheet3->write('H6', '=SUM(H2:H5)', $bold);

	   ###############################################################################
	   #
	   # Example 4: Show all possible outline levels.
	   #
	   my $levels = ["Level 1", "Level 2", "Level 3", "Level 4",
			 "Level 5", "Level 6", "Level 7", "Level 6",
			 "Level 5", "Level 4", "Level 3", "Level 2", "Level 1"];

	   $worksheet4->write_col('A1', $levels);

	   $worksheet4->set_row(0,  undef, undef, undef, 1);
	   $worksheet4->set_row(1,  undef, undef, undef, 2);
	   $worksheet4->set_row(2,  undef, undef, undef, 3);
	   $worksheet4->set_row(3,  undef, undef, undef, 4);
	   $worksheet4->set_row(4,  undef, undef, undef, 5);
	   $worksheet4->set_row(5,  undef, undef, undef, 6);
	   $worksheet4->set_row(6,  undef, undef, undef, 7);
	   $worksheet4->set_row(7,  undef, undef, undef, 6);
	   $worksheet4->set_row(8,  undef, undef, undef, 5);
	   $worksheet4->set_row(9,  undef, undef, undef, 4);
	   $worksheet4->set_row(10, undef, undef, undef, 3);
	   $worksheet4->set_row(11, undef, undef, undef, 2);
	   $worksheet4->set_row(12, undef, undef, undef, 1);

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/outline.pl>

   Example: outline_collapsed.pl
       Example of how use Spreadsheet::WriteExcel to generate Excel outlines and grouping.

       These example focus mainly on collapsed outlines. See also the outlines.pl example program for more general examples.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how use Spreadsheet::WriteExcel to generate Excel outlines and
	   # grouping.
	   #
	   # These example focus mainly on collapsed outlines. See also the
	   # outlines.pl example program for more general examples.
	   #
	   # reverse('X'), March 2008, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add some worksheets
	   my $workbook   = Spreadsheet::WriteExcel->new('outline_collapsed.xls');
	   my $worksheet1 = $workbook->add_worksheet('Outlined Rows');
	   my $worksheet2 = $workbook->add_worksheet('Collapsed Rows 1');
	   my $worksheet3 = $workbook->add_worksheet('Collapsed Rows 2');
	   my $worksheet4 = $workbook->add_worksheet('Collapsed Rows 3');
	   my $worksheet5 = $workbook->add_worksheet('Outline Columns');
	   my $worksheet6 = $workbook->add_worksheet('Collapsed Columns');

	   # Add a general format
	   my $bold = $workbook->add_format(bold => 1);

	   #
	   # This function will generate the same data and sub-totals on each worksheet.
	   #
	   sub create_sub_totals {

	       my $worksheet = $_[0];

	       # Add a column format for clarity
	       $worksheet->set_column('A:A', 20);

	       # Add the data, labels and formulas
	       $worksheet->write('A1',	'Region', $bold);
	       $worksheet->write('A2',	'North');
	       $worksheet->write('A3',	'North');
	       $worksheet->write('A4',	'North');
	       $worksheet->write('A5',	'North');
	       $worksheet->write('A6',	'North Total', $bold);

	       $worksheet->write('B1',	'Sales',  $bold);
	       $worksheet->write('B2',	1000);
	       $worksheet->write('B3',	1200);
	       $worksheet->write('B4',	900);
	       $worksheet->write('B5',	1200);
	       $worksheet->write('B6',	'=SUBTOTAL(9,B2:B5)', $bold);

	       $worksheet->write('A7',	'South');
	       $worksheet->write('A8',	'South');
	       $worksheet->write('A9',	'South');
	       $worksheet->write('A10', 'South');
	       $worksheet->write('A11', 'South Total', $bold);

	       $worksheet->write('B7',	400);
	       $worksheet->write('B8',	600);
	       $worksheet->write('B9',	500);
	       $worksheet->write('B10', 600);
	       $worksheet->write('B11', '=SUBTOTAL(9,B7:B10)', $bold);

	       $worksheet->write('A12', 'Grand Total', $bold);
	       $worksheet->write('B12', '=SUBTOTAL(9,B2:B10)', $bold);

	   }

	   ###############################################################################
	   #
	   # Example 1: Create a worksheet with outlined rows. It also includes SUBTOTAL()
	   # functions so that it looks like the type of automatic outlines that are
	   # generated when you use the Excel Data->SubTotals menu item.
	   #

	   # The syntax is: set_row($row, $height, $XF, $hidden, $level, $collapsed)
	   $worksheet1->set_row(1,  undef, undef, 0, 2);
	   $worksheet1->set_row(2,  undef, undef, 0, 2);
	   $worksheet1->set_row(3,  undef, undef, 0, 2);
	   $worksheet1->set_row(4,  undef, undef, 0, 2);
	   $worksheet1->set_row(5,  undef, undef, 0, 1);

	   $worksheet1->set_row(6,  undef, undef, 0, 2);
	   $worksheet1->set_row(7,  undef, undef, 0, 2);
	   $worksheet1->set_row(8,  undef, undef, 0, 2);
	   $worksheet1->set_row(9,  undef, undef, 0, 2);
	   $worksheet1->set_row(10, undef, undef, 0, 1);

	   # Write the sub-total data that is common to the row examples.
	   create_sub_totals($worksheet1);

	   ###############################################################################
	   #
	   # Example 2: Create a worksheet with collapsed outlined rows.
	   # This is the same as the example 1	except that the all rows are collapsed.
	   # Note: We need to indicate the row that contains the collapsed symbol '+' with
	   # the optional parameter, $collapsed.

	   $worksheet2->set_row(1,  undef, undef, 1, 2);
	   $worksheet2->set_row(2,  undef, undef, 1, 2);
	   $worksheet2->set_row(3,  undef, undef, 1, 2);
	   $worksheet2->set_row(4,  undef, undef, 1, 2);
	   $worksheet2->set_row(5,  undef, undef, 1, 1);

	   $worksheet2->set_row(6,  undef, undef, 1, 2);
	   $worksheet2->set_row(7,  undef, undef, 1, 2);
	   $worksheet2->set_row(8,  undef, undef, 1, 2);
	   $worksheet2->set_row(9,  undef, undef, 1, 2);
	   $worksheet2->set_row(10, undef, undef, 1, 1);

	   $worksheet2->set_row(11, undef, undef, 0, 0, 1);

	   # Write the sub-total data that is common to the row examples.
	   create_sub_totals($worksheet2);

	   ###############################################################################
	   #
	   # Example 3: Create a worksheet with collapsed outlined rows.
	   # Same as the example 1  except that the two sub-totals are collapsed.

	   $worksheet3->set_row(1,  undef, undef, 1, 2);
	   $worksheet3->set_row(2,  undef, undef, 1, 2);
	   $worksheet3->set_row(3,  undef, undef, 1, 2);
	   $worksheet3->set_row(4,  undef, undef, 1, 2);
	   $worksheet3->set_row(5,  undef, undef, 0, 1, 1);

	   $worksheet3->set_row(6,  undef, undef, 1, 2);
	   $worksheet3->set_row(7,  undef, undef, 1, 2);
	   $worksheet3->set_row(8,  undef, undef, 1, 2);
	   $worksheet3->set_row(9,  undef, undef, 1, 2);
	   $worksheet3->set_row(10, undef, undef, 0, 1, 1);

	   # Write the sub-total data that is common to the row examples.
	   create_sub_totals($worksheet3);

	   ###############################################################################
	   #
	   # Example 4: Create a worksheet with outlined rows.
	   # Same as the example 1  except that the two sub-totals are collapsed.

	   $worksheet4->set_row(1,  undef, undef, 1, 2);
	   $worksheet4->set_row(2,  undef, undef, 1, 2);
	   $worksheet4->set_row(3,  undef, undef, 1, 2);
	   $worksheet4->set_row(4,  undef, undef, 1, 2);
	   $worksheet4->set_row(5,  undef, undef, 1, 1, 1);

	   $worksheet4->set_row(6,  undef, undef, 1, 2);
	   $worksheet4->set_row(7,  undef, undef, 1, 2);
	   $worksheet4->set_row(8,  undef, undef, 1, 2);
	   $worksheet4->set_row(9,  undef, undef, 1, 2);
	   $worksheet4->set_row(10, undef, undef, 1, 1, 1);

	   $worksheet4->set_row(11, undef, undef, 0, 0, 1);

	   # Write the sub-total data that is common to the row examples.
	   create_sub_totals($worksheet4);

	   ###############################################################################
	   #
	   # Example 5: Create a worksheet with outlined columns.
	   #
	   my $data = [
		       ['Month', 'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun',' Total'],
		       ['North', 50,	20,    15,    25,    65,    80,    ,'=SUM(B2:G2)'],
		       ['South', 10,	20,    30,    50,    50,    50,    ,'=SUM(B3:G3)'],
		       ['East',  45,	75,    50,    15,    75,    100,   ,'=SUM(B4:G4)'],
		       ['West',  15,	15,    55,    35,    20,    50,    ,'=SUM(B5:G6)'],
		      ];

	   # Add bold format to the first row
	   $worksheet5->set_row(0, undef, $bold);

	   # Syntax: set_column($col1, $col2, $width, $XF, $hidden, $level, $collapsed)
	   $worksheet5->set_column('A:A', 10, $bold	 );
	   $worksheet5->set_column('B:G', 5,  undef, 0, 1);
	   $worksheet5->set_column('H:H', 10		 );

	   # Write the data and a formula
	   $worksheet5->write_col('A1', $data);
	   $worksheet5->write('H6', '=SUM(H2:H5)', $bold);

	   ###############################################################################
	   #
	   # Example 6: Create a worksheet with collapsed outlined columns.
	   # This is the same as the previous example except collapsed columns.

	   # Add bold format to the first row
	   $worksheet6->set_row(0, undef, $bold);

	   # Syntax: set_column($col1, $col2, $width, $XF, $hidden, $level, $collapsed)
	   $worksheet6->set_column('A:A', 10, $bold	    );
	   $worksheet6->set_column('B:G', 5,  undef, 1, 1   );
	   $worksheet6->set_column('H:H', 10, undef, 0, 0, 1);

	   # Write the data and a formula
	   $worksheet6->write_col('A1', $data);
	   $worksheet6->write('H6', '=SUM(H2:H5)', $bold);

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/outline_collapsed.pl>

   Example: panes.pl
       Example of using the WriteExcel module to create worksheet panes.

       Source code for this example:

	   #!/usr/bin/perl -w

	   #######################################################################
	   #
	   # Example of using the WriteExcel module to create worksheet panes.
	   #
	   # reverse('X'), May 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("panes.xls");

	   my $worksheet1 = $workbook->add_worksheet('Panes 1');
	   my $worksheet2 = $workbook->add_worksheet('Panes 2');
	   my $worksheet3 = $workbook->add_worksheet('Panes 3');
	   my $worksheet4 = $workbook->add_worksheet('Panes 4');

	   # Freeze panes
	   $worksheet1->freeze_panes(1, 0); # 1 row

	   $worksheet2->freeze_panes(0, 1); # 1 column
	   $worksheet3->freeze_panes(1, 1); # 1 row and column

	   # Split panes.
	   # The divisions must be specified in terms of row and column dimensions.
	   # The default row height is 12.75 and the default column width is 8.43
	   #
	   $worksheet4->split_panes(12.75, 8.43, 1, 1); # 1 row and column

	   #######################################################################
	   #
	   # Set up some formatting and text to highlight the panes
	   #

	   my $header = $workbook->add_format();
	   $header->set_color('white');
	   $header->set_align('center');
	   $header->set_align('vcenter');
	   $header->set_pattern();
	   $header->set_fg_color('green');

	   my $center = $workbook->add_format();
	   $center->set_align('center');

	   #######################################################################
	   #
	   # Sheet 1
	   #

	   $worksheet1->set_column('A:I', 16);
	   $worksheet1->set_row(0, 20);
	   $worksheet1->set_selection('C3');

	   for my $i (0..8){
	       $worksheet1->write(0, $i, 'Scroll down', $header);
	   }

	   for my $i (1..100){
	       for my $j (0..8){
		   $worksheet1->write($i, $j, $i+1, $center);
	       }
	   }

	   #######################################################################
	   #
	   # Sheet 2
	   #

	   $worksheet2->set_column('A:A', 16);
	   $worksheet2->set_selection('C3');

	   for my $i (0..49){
	       $worksheet2->set_row($i, 15);
	       $worksheet2->write($i, 0, 'Scroll right', $header);
	   }

	   for my $i (0..49){
	       for my $j (1..25){
		   $worksheet2->write($i, $j, $j, $center);
	       }
	   }

	   #######################################################################
	   #
	   # Sheet 3
	   #

	   $worksheet3->set_column('A:Z', 16);
	   $worksheet3->set_selection('C3');

	   for my $i (1..25){
	       $worksheet3->write(0, $i, 'Scroll down',  $header);
	   }

	   for my $i (1..49){
	       $worksheet3->write($i, 0, 'Scroll right', $header);
	   }

	   for my $i (1..49){
	       for my $j (1..25){
		   $worksheet3->write($i, $j, $j, $center);
	       }
	   }

	   #######################################################################
	   #
	   # Sheet 4
	   #

	   $worksheet4->set_selection('C3');

	   for my $i (1..25){
	       $worksheet4->write(0, $i, 'Scroll', $center);
	   }

	   for my $i (1..49){
	       $worksheet4->write($i, 0, 'Scroll', $center);
	   }

	   for my $i (1..49){
	       for my $j (1..25){
		   $worksheet4->write($i, $j, $j, $center);
	       }
	   }

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/panes.pl>

   Example: properties.pl
       An example of adding document properties to a Spreadsheet::WriteExcel file.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # An example of adding document properties to a Spreadsheet::WriteExcel file.
	   #
	   # reverse('X'), August 2008, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new('properties.xls');
	   my $worksheet = $workbook->add_worksheet();

	   $workbook->set_properties(
	       title	=> 'This is an example spreadsheet',
	       subject	=> 'With document properties',
	       author	=> 'John McNamara',
	       manager	=> 'Dr. Heinz Doofenshmirtz ',
	       company	=> 'of Wolves',
	       category => 'Example spreadsheets',
	       keywords => 'Sample, Example, Properties',
	       comments => 'Created with Perl and Spreadsheet::WriteExcel',
	   );

	   $worksheet->set_column('A:A', 50);
	   $worksheet->write('A1', 'Select File->Properties to see the file properties');

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/properties.pl>

   Example: protection.pl
       Example of cell locking and formula hiding in an Excel worksheet via the Spreadsheet::WriteExcel module.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ########################################################################
	   #
	   # Example of cell locking and formula hiding in an Excel worksheet via
	   # the Spreadsheet::WriteExcel module.
	   #
	   # reverse('X'), August 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("protection.xls");
	   my $worksheet = $workbook->add_worksheet();

	   # Create some format objects
	   my $locked	 = $workbook->add_format(locked => 1);
	   my $unlocked  = $workbook->add_format(locked => 0);
	   my $hidden	 = $workbook->add_format(hidden => 1);

	   # Format the columns
	   $worksheet->set_column('A:A', 42);
	   $worksheet->set_selection('B3:B3');

	   # Protect the worksheet
	   $worksheet->protect();

	   # Examples of cell locking and hiding
	   $worksheet->write('A1', 'Cell B1 is locked. It cannot be edited.');
	   $worksheet->write('B1', '=1+2', $locked);

	   $worksheet->write('A2', 'Cell B2 is unlocked. It can be edited.');
	   $worksheet->write('B2', '=1+2', $unlocked);

	   $worksheet->write('A3', "Cell B3 is hidden. The formula isn't visible.");
	   $worksheet->write('B3', '=1+2', $hidden);

	   $worksheet->write('A5', 'Use Menu->Tools->Protection->Unprotect Sheet');
	   $worksheet->write('A6', 'to remove the worksheet protection.   ');

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/protection.pl>

   Example: repeat.pl
       Example of writing repeated formulas.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ######################################################################
	   #
	   # Example of writing repeated formulas.
	   #
	   # reverse('X'), August 2002, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("repeat.xls");
	   my $worksheet = $workbook->add_worksheet();

	   my $limit = 1000;

	   # Write a column of numbers
	   for my $row (0..$limit) {
	       $worksheet->write($row, 0,  $row);
	   }

	   # Store a formula
	   my $formula = $worksheet->store_formula('=A1*5+4');

	   # Write a column of formulas based on the stored formula
	   for my $row (0..$limit) {
	       $worksheet->repeat_formula($row, 1, $formula, undef,
						   qr/^A1$/, 'A'.($row+1));
	   }

	   # Direct formula writing. As a speed comparison uncomment the
	   # following and run the program again

	   #for my $row (0..$limit) {
	   #	$worksheet->write_formula($row, 2, '=A'.($row+1).'*5+4');
	   #}

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/repeat.pl>

   Example: right_to_left.pl
       Example of how to change the default worksheet direction from left-to-right to right-to-left as required by some eastern verions of Excel.

       Source code for this example:

	   #!/usr/bin/perl -w

	   #######################################################################
	   #
	   # Example of how to change the default worksheet direction from
	   # left-to-right to right-to-left as required by some eastern verions
	   # of Excel.
	   #
	   # reverse('X'), January 2006, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook   = Spreadsheet::WriteExcel->new("right_to_left.xls");
	   my $worksheet1 = $workbook->add_worksheet();
	   my $worksheet2 = $workbook->add_worksheet();

	   $worksheet2->right_to_left();

	   $worksheet1->write(0, 0, 'Hello'); #  A1, B1, C1, ...
	   $worksheet2->write(0, 0, 'Hello'); # ..., C1, B1, A1

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/right_to_left.pl>

   Example: row_wrap.pl
       Demonstrates how to wrap data from one worksheet onto another.

       Excel has a row limit of 65536 rows. Sometimes the amount of row data to be written to a file is greater than this limit. In this case it
       is a useful technique to wrap the data from one worksheet onto the next so that we get something like the following:

	 Sheet1  Row	 1  -  65536
	 Sheet2  Row 65537  - 131072
	 Sheet3  Row 131073 - ...

       In order to achieve this we use a single worksheet reference and reinitialise it to point to a new worksheet when required.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # Demonstrates how to wrap data from one worksheet onto another.
	   #
	   # Excel has a row limit of 65536 rows. Sometimes the amount of row data to be
	   # written to a file is greater than this limit. In this case it is a useful
	   # technique to wrap the data from one worksheet onto the next so that we get
	   # something like the following:
	   #
	   #   Sheet1  Row     1  -  65536
	   #   Sheet2  Row 65537  - 131072
	   #   Sheet3  Row 131073 - ...
	   #
	   # In order to achieve this we use a single worksheet reference and
	   # reinitialise it to point to a new worksheet when required.
	   #
	   # reverse('X'), May 2006, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new('row_wrap.xls');
	   my $worksheet = $workbook->add_worksheet();

	   # Worksheet formatting.
	   $worksheet->set_column('A:A', 20);

	   # For the sake of this example we will use a small row limit. In order to use
	   # the entire row range set the $row_limit to 65536.
	   my $row_limit = 10;
	   my $row	 = 0;

	   for my $count (1 .. 2 * $row_limit +10) {

	       # When we hit the row limit we redirect the output
	       # to a new worksheet and reset the row number.
	       if ($row == $row_limit) {
		   $worksheet = $workbook->add_worksheet();
		   $row = 0;

		   # Repeat any worksheet formatting.
		   $worksheet->set_column('A:A', 20);
	       }

	       $worksheet->write($row, 0,  "This is row $count");
	       $row++;
	   }

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/row_wrap.pl>

   Example: sales.pl
       Example of a sales worksheet to demonstrate several different features.	Also uses functions from the Spreadsheet::WriteExcel::Utility
       module.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of a sales worksheet to demonstrate several different features.
	   # Also uses functions from the L<Spreadsheet::WriteExcel::Utility> module.
	   #
	   # reverse('X'), October 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;
	   use Spreadsheet::WriteExcel::Utility;

	   # Create a new workbook and add a worksheet
	   my $workbook        = Spreadsheet::WriteExcel->new("sales.xls");
	   my $worksheet       = $workbook->add_worksheet('May Sales');

	   # Set up some formats
	   my %heading	       =   (
				       bold	   => 1,
				       pattern	   => 1,
				       fg_color    => 19,
				       border	   => 1,
				       align	   => 'center',
				   );

	   my %total	       =   (
				   bold        => 1,
				   top	       => 1,
				   num_format  => '$#,##0.00'
				   );

	   my $heading	       = $workbook->add_format(%heading);
	   my $total_format    = $workbook->add_format(%total);
	   my $price_format    = $workbook->add_format(num_format => '$#,##0.00');
	   my $date_format     = $workbook->add_format(num_format => 'mmm d yyy');

	   # Write the main headings
	   $worksheet->freeze_panes(1); # Freeze the first row
	   $worksheet->write('A1', 'Item',     $heading);
	   $worksheet->write('B1', 'Quantity', $heading);
	   $worksheet->write('C1', 'Price',    $heading);
	   $worksheet->write('D1', 'Total',    $heading);
	   $worksheet->write('E1', 'Date',     $heading);

	   # Set the column widths
	   $worksheet->set_column('A:A', 25);
	   $worksheet->set_column('B:B', 10);
	   $worksheet->set_column('C:E', 16);

	   # Extract the sales data from the __DATA__ section at the end of the file.
	   # In reality this information would probably come from a database
	   my @sales;

	   foreach my $line (<DATA>) {
	       chomp $line;
	       next if $line eq '';
	       # Simple-minded processing of CSV data. Refer to the Text::CSV_XS
	       # and Text::xSV modules for a more complete CSV handling.
	       my @items = split /,/, $line;
	       push @sales, @items;
	   }

	   # Write out the items from each row
	   my $row = 1;
	   foreach my $sale (@sales) {

	       $worksheet->write($row, 0, @$sale[0]);
	       $worksheet->write($row, 1, @$sale[1]);
	       $worksheet->write($row, 2, @$sale[2], $price_format);

	       # Create a formula like '=B2*C2'
	       my $formula =   '='
			       . xl_rowcol_to_cell($row, 1)
			       . "*"
			       . xl_rowcol_to_cell($row, 2);

	       $worksheet->write($row, 3, $formula, $price_format);

	       # Parse the date
	       my $date = xl_decode_date_US(@$sale[3]);
	       $worksheet->write($row, 4, $date, $date_format);
	       $row++;
	   }

	   # Create a formula to sum the totals, like '=SUM(D2:D6)'
	   my $total = '=SUM(D2:'
		       . xl_rowcol_to_cell($row-1, 3)
		       . ")";

	   $worksheet->write($row, 3, $total, $total_format);

	   __DATA__
	   586 card,20,125.50,5/12/01
	   Flat Screen Monitor,1,1300.00,5/12/01
	   64 MB dimms,45,49.99,5/13/01
	   15 GB HD,12,300.00,5/13/01
	   Speakers (pair),5,15.50,5/14/01

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/sales.pl>

   Example: sendmail.pl
       Example of how to use Mail::Sender to send a Spreadsheet::WriteExcel Excel file as an attachment.

       The main thing is to ensure that you close() the Worbook before you send it.

       See the Mail::Sender module for further details.

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to use Mail::Sender to send a Spreadsheet::WriteExcel Excel
	   # file as an attachment.
	   #
	   # The main thing is to ensure that you close() the Worbook before you send it.
	   #
	   # See the L<Mail::Sender> module for further details.
	   #
	   # reverse('X'), August 2002, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;
	   use Mail::Sender;

	   # Create an Excel file
	   my $workbook  = Spreadsheet::WriteExcel->new("sendmail.xls");
	   my $worksheet = $workbook->add_worksheet;

	   $worksheet->write('A1', "Hello World!");

	   $workbook->close(); # Must close before sending

	   # Send the file.  Change all variables to suit
	   my $sender = new Mail::Sender
	   {
	       smtp => '123.123.123.123',
	       from => 'Someone'
	   };

	   $sender->MailFile(
	   {
	       to      => 'another@mail.com',
	       subject => 'Excel file',
	       msg     => "Here is the data.
",
	       file    => 'mail.xls',
	   });

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/sendmail.pl>

   Example: stats_ext.pl
       Example of formatting using the Spreadsheet::WriteExcel module

       This is a simple example of how to use functions that reference cells in other worksheets within the same workbook.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of formatting using the Spreadsheet::WriteExcel module
	   #
	   # This is a simple example of how to use functions that reference cells in
	   # other worksheets within the same workbook.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new("stats_ext.xls");
	   my $worksheet1 = $workbook->add_worksheet('Test results');
	   my $worksheet2 = $workbook->add_worksheet('Data');

	   # Set the column width for columns 1
	   $worksheet1->set_column('A:A', 20);

	   # Create a format for the headings
	   my $heading = $workbook->add_format();
	   $heading->set_bold();

	   # Create a numerical format
	   my $numformat = $workbook->add_format();
	   $numformat->set_num_format('0.00');

	   # Write some statistical functions
	   $worksheet1->write('A1', 'Count', $heading);
	   $worksheet1->write('B1', '=COUNT(Data!B2:B9)');

	   $worksheet1->write('A2', 'Sum', $heading);
	   $worksheet1->write('B2', '=SUM(Data!B2:B9)');

	   $worksheet1->write('A3', 'Average', $heading);
	   $worksheet1->write('B3', '=AVERAGE(Data!B2:B9)');

	   $worksheet1->write('A4', 'Min', $heading);
	   $worksheet1->write('B4', '=MIN(Data!B2:B9)');

	   $worksheet1->write('A5', 'Max', $heading);
	   $worksheet1->write('B5', '=MAX(Data!B2:B9)');

	   $worksheet1->write('A6', 'Standard Deviation', $heading);
	   $worksheet1->write('B6', '=STDEV(Data!B2:B9)');

	   $worksheet1->write('A7', 'Kurtosis', $heading);
	   $worksheet1->write('B7', '=KURT(Data!B2:B9)');

	   # Write the sample data
	   $worksheet2->write('A1', 'Sample', $heading);
	   $worksheet2->write('A2', 1);
	   $worksheet2->write('A3', 2);
	   $worksheet2->write('A4', 3);
	   $worksheet2->write('A5', 4);
	   $worksheet2->write('A6', 5);
	   $worksheet2->write('A7', 6);
	   $worksheet2->write('A8', 7);
	   $worksheet2->write('A9', 8);

	   $worksheet2->write('B1', 'Length', $heading);
	   $worksheet2->write('B2', 25.4, $numformat);
	   $worksheet2->write('B3', 25.4, $numformat);
	   $worksheet2->write('B4', 24.8, $numformat);
	   $worksheet2->write('B5', 25.0, $numformat);
	   $worksheet2->write('B6', 25.3, $numformat);
	   $worksheet2->write('B7', 24.9, $numformat);
	   $worksheet2->write('B8', 25.2, $numformat);
	   $worksheet2->write('B9', 24.8, $numformat);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/stats_ext.pl>

   Example: stocks.pl
       Example of formatting using the Spreadsheet::WriteExcel module

       This example shows how to use a conditional numerical format with colours to indicate if a share price has gone up or down.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of formatting using the Spreadsheet::WriteExcel module
	   #
	   # This example shows how to use a conditional numerical format
	   # with colours to indicate if a share price has gone up or down.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new("stocks.xls");
	   my $worksheet = $workbook->add_worksheet();

	   # Set the column width for columns 1, 2, 3 and 4
	   $worksheet->set_column(0, 3, 15);

	   # Create a format for the column headings
	   my $header = $workbook->add_format();
	   $header->set_bold();
	   $header->set_size(12);
	   $header->set_color('blue');

	   # Create a format for the stock price
	   my $f_price = $workbook->add_format();
	   $f_price->set_align('left');
	   $f_price->set_num_format('$0.00');

	   # Create a format for the stock volume
	   my $f_volume = $workbook->add_format();
	   $f_volume->set_align('left');
	   $f_volume->set_num_format('#,##0');

	   # Create a format for the price change. This is an example of a conditional
	   # format. The number is formatted as a percentage. If it is positive it is
	   # formatted in green, if it is negative it is formatted in red and if it is
	   # zero it is formatted as the default font colour (in this case black).
	   # Note: the [Green] format produces an unappealing lime green. Try
	   # [Color 10] instead for a dark green.
	   #
	   my $f_change = $workbook->add_format();
	   $f_change->set_align('left');
	   $f_change->set_num_format('[Green]0.0%;[Red]-0.0%;0.0%');

	   # Write out the data
	   $worksheet->write(0, 0, 'Company', $header);
	   $worksheet->write(0, 1, 'Price',   $header);
	   $worksheet->write(0, 2, 'Volume',  $header);
	   $worksheet->write(0, 3, 'Change',  $header);

	   $worksheet->write(1, 0, 'Damage Inc.'     );
	   $worksheet->write(1, 1, 30.25,     $f_price);  # $30.25
	   $worksheet->write(1, 2, 1234567,   $f_volume); # 1,234,567
	   $worksheet->write(1, 3, 0.085,     $f_change); # 8.5% in green

	   $worksheet->write(2, 0, 'Dump Corp.'      );
	   $worksheet->write(2, 1, 1.56,      $f_price);  # $1.56
	   $worksheet->write(2, 2, 7564,      $f_volume); # 7,564
	   $worksheet->write(2, 3, -0.015,    $f_change); # -1.5% in red

	   $worksheet->write(3, 0, 'Rev Ltd.'	     );
	   $worksheet->write(3, 1, 0.13,      $f_price);  # $0.13
	   $worksheet->write(3, 2, 321,       $f_volume); # 321
	   $worksheet->write(3, 3, 0,	      $f_change); # 0 in the font color (black)

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/stocks.pl>

   Example: tab_colors.pl
       Example of how to set Excel worksheet tab colours.

       Source code for this example:

	   #!/usr/bin/perl -w

	   #######################################################################
	   #
	   # Example of how to set Excel worksheet tab colours.
	   #
	   # reverse('X'), May 2006, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook   = Spreadsheet::WriteExcel->new('tab_colors.xls');

	   my $worksheet1 = $workbook->add_worksheet();
	   my $worksheet2 = $workbook->add_worksheet();
	   my $worksheet3 = $workbook->add_worksheet();
	   my $worksheet4 = $workbook->add_worksheet();

	   # Worksheet1 will have the default tab colour.
	   $worksheet2->set_tab_color('red');
	   $worksheet3->set_tab_color('green');
	   $worksheet4->set_tab_color(0x35); # Orange

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/tab_colors.pl>

   Example: textwrap.pl
       Example of formatting using the Spreadsheet::WriteExcel module

       This example shows how to wrap text in a cell. There are two alternatives, vertical justification and text wrap.

       With vertical justification the text is wrapped automatically to fit the column width. With text wrap you must specify a newline with an
       embedded 
.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of formatting using the Spreadsheet::WriteExcel module
	   #
	   # This example shows how to wrap text in a cell. There are two alternatives,
	   # vertical justification and text wrap.
	   #
	   # With vertical justification the text is wrapped automatically to fit the
	   # column width. With text wrap you must specify a newline with an embedded 
.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new("textwrap.xls");
	   my $worksheet = $workbook->add_worksheet();

	   # Set the column width for columns 1, 2 and 3
	   $worksheet->set_column(1, 1, 24);
	   $worksheet->set_column(2, 2, 34);
	   $worksheet->set_column(3, 3, 34);

	   # Set the row height for rows 1, 4, and 6. The height of row 2 will adjust
	   # automatically to fit the text.
	   #
	   $worksheet->set_row(0, 30);
	   $worksheet->set_row(3, 40);
	   $worksheet->set_row(5, 80);

	   # No newlines
	   my $str1  = "For whatever we lose (like a you or a me) ";
	   $str1    .= "it's always ourselves we find in the sea";

	   # Embedded newlines
	   my $str2  = "For whatever we lose
(like a you or a me)
";
	      $str2 .= "it's always ourselves
we find in the sea";

	   # Create a format for the column headings
	   my $header = $workbook->add_format();
	   $header->set_bold();
	   $header->set_font("Courier New");
	   $header->set_align('center');
	   $header->set_align('vcenter');

	   # Create a "vertical justification" format
	   my $format1 = $workbook->add_format();
	   $format1->set_align('vjustify');

	   # Create a "text wrap" format
	   my $format2 = $workbook->add_format();
	   $format2->set_text_wrap();

	   # Write the headers
	   $worksheet->write(0, 1, "set_align('vjustify')", $header);
	   $worksheet->write(0, 2, "set_align('vjustify')", $header);
	   $worksheet->write(0, 3, "set_text_wrap()", $header);

	   # Write some examples
	   $worksheet->write(1, 1, $str1, $format1);
	   $worksheet->write(1, 2, $str1, $format1);
	   $worksheet->write(1, 3, $str2, $format2);

	   $worksheet->write(3, 1, $str1, $format1);
	   $worksheet->write(3, 2, $str1, $format1);
	   $worksheet->write(3, 3, $str2, $format2);

	   $worksheet->write(5, 1, $str1, $format1);
	   $worksheet->write(5, 2, $str1, $format1);
	   $worksheet->write(5, 3, $str2, $format2);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/textwrap.pl>

   Example: win32ole.pl
       This is a simple example of how to create an Excel file using the Win32::OLE module for the sake of comparison.

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # This is a simple example of how to create an Excel file using the
	   # Win32::OLE module for the sake of comparison.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Cwd;
	   use Win32::OLE;
	   use Win32::OLE::Const 'Microsoft Excel';

	   my $application = Win32::OLE->new("Excel.Application");
	   my $workbook    = $application->Workbooks->Add;
	   my $worksheet   = $workbook->Worksheets(1);

	   $worksheet->Cells(1,1)->{Value} = "Hello World";
	   $worksheet->Cells(2,1)->{Value} = "One";
	   $worksheet->Cells(3,1)->{Value} = "Two";
	   $worksheet->Cells(4,1)->{Value} =  3;
	   $worksheet->Cells(5,1)->{Value} =  4.0000001;

	   # Add some formatting
	   $worksheet->Cells(1,1)->Font->{Bold}       = "True";
	   $worksheet->Cells(1,1)->Font->{Size}       = 16;
	   $worksheet->Cells(1,1)->Font->{ColorIndex} = 3;
	   $worksheet->Columns("A:A")->{ColumnWidth}  = 25;

	   # Write a hyperlink
	   my $range = $worksheet->Range("A7:A7");
	   $worksheet->Hyperlinks->Add({ Anchor => $range, Address => "http://www.perl.com/"});

	   # Get current directory using Cwd.pm
	   my $dir = cwd();

	   $workbook->SaveAs({
			       FileName   => $dir . '/win32ole.xls',
			       FileFormat => xlNormal,
			     });
	   $workbook->Close;

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/win32ole.pl>

   Example: write_arrays.pl
       Example of how to use the Spreadsheet::WriteExcel module to write 1D and 2D arrays of data.

       To find out more about array references refer(!!) to the perlref and perlreftut manpages. To find out more about 2D arrays or "list of
       lists" refer to the perllol manpage.

       Source code for this example:

	   #!/usr/bin/perl -w

	   #######################################################################
	   #
	   # Example of how to use the Spreadsheet::WriteExcel module to
	   # write 1D and 2D arrays of data.
	   #
	   # To find out more about array references refer(!!) to the perlref and
	   # perlreftut manpages. To find out more about 2D arrays or "list of
	   # lists" refer to the perllol manpage.
	   #
	   # reverse('X'), March 2002, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook   = Spreadsheet::WriteExcel->new("write_arrays.xls");
	   my $worksheet1 = $workbook->add_worksheet('Example 1');
	   my $worksheet2 = $workbook->add_worksheet('Example 2');
	   my $worksheet3 = $workbook->add_worksheet('Example 3');
	   my $worksheet4 = $workbook->add_worksheet('Example 4');
	   my $worksheet5 = $workbook->add_worksheet('Example 5');
	   my $worksheet6 = $workbook->add_worksheet('Example 6');
	   my $worksheet7 = $workbook->add_worksheet('Example 7');
	   my $worksheet8 = $workbook->add_worksheet('Example 8');

	   my $format	  = $workbook->add_format(color => 'red', bold => 1);

	   # Data arrays used in the following examples.
	   # undef values are written as blank cells (with format if specified).
	   #
	   my @array   =   ( 'one', 'two', undef, 'four' );

	   my @array2d =   (
			       ['maggie', 'milly', 'molly', 'may'  ],
			       [13,	  14,	   15,	    16	   ],
			       ['shell',  'star',  'crab',  'stone'],
			   );

	   # 1. Write a row of data using an array reference.
	   $worksheet1->write('A1', @array);

	   # 2. Same as 1. above using an anonymous array ref.
	   $worksheet2->write('A1', [ @array ]);

	   # 3. Write a row of data using an explicit write_row() method call.
	   #	This is the same as calling write() in Ex. 1 above.
	   #
	   $worksheet3->write_row('A1', @array);

	   # 4. Write a column of data using the write_col() method call.
	   $worksheet4->write_col('A1', @array);

	   # 5. Write a column of data using a ref to an array ref, i.e. a 2D array.
	   $worksheet5->write('A1', [ @array ]);

	   # 6. Write a 2D array in col-row order.
	   $worksheet6->write('A1', @array2d);

	   # 7. Write a 2D array in row-col order.
	   $worksheet7->write_col('A1', @array2d);

	   # 8. Write a row of data with formatting. The blank cell is also formatted.
	   $worksheet8->write('A1', @array, $format);

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/write_arrays.pl>

   Example: write_handler1.pl
       Example of how to add a user defined data handler to the Spreadsheet:: WriteExcel write() method.

       The following example shows how to add a handler for a 7 digit ID number.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to add a user defined data handler to the Spreadsheet::
	   # WriteExcel write() method.
	   #
	   # The following example shows how to add a handler for a 7 digit ID number.
	   #
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook    = Spreadsheet::WriteExcel->new("write_handler1.xls");
	   my $worksheet   = $workbook->add_worksheet();

	   ###############################################################################
	   #
	   # Add a handler for 7 digit id numbers. This is useful when you want a string
	   # such as 0000001 written as a string instead of a number and thus preserve
	   # the leading zeroes.
	   #
	   # Note: you can get the same effect using the keep_leading_zeros() method but
	   # this serves as a simple example.
	   #
	   $worksheet->add_write_handler(qr[^d{7}$], &write_my_id);

	   ###############################################################################
	   #
	   # The following function processes the data when a match is found.
	   #
	   sub write_my_id {

	       my $worksheet = shift;

	       return $worksheet->write_string(@_);
	   }

	   # This format maintains the cell as text even if it is edited.
	   my $id_format   = $workbook->add_format(num_format => '@');

	   # Write some numbers in the user defined format
	   $worksheet->write('A1', '0000000', $id_format);
	   $worksheet->write('A2', '0000001', $id_format);
	   $worksheet->write('A3', '0004000', $id_format);
	   $worksheet->write('A4', '1234567', $id_format);

	   # Write some numbers that don't match the defined format
	   $worksheet->write('A6', '000000',  $id_format);
	   $worksheet->write('A7', '000001',  $id_format);
	   $worksheet->write('A8', '004000',  $id_format);
	   $worksheet->write('A9', '123456',  $id_format);

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/write_handler1.pl>

   Example: write_handler2.pl
       Example of how to add a user defined data handler to the Spreadsheet:: WriteExcel write() method.

       The following example shows how to add a handler for a 7 digit ID number.  It adds an additional constraint to the write_handler1.pl in
       that it only filters data that isn't in the third column.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to add a user defined data handler to the Spreadsheet::
	   # WriteExcel write() method.
	   #
	   # The following example shows how to add a handler for a 7 digit ID number.
	   # It adds an additional constraint to the write_handler1.pl in that it only
	   # filters data that isn't in the third column.
	   #
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook    = Spreadsheet::WriteExcel->new("write_handler2.xls");
	   my $worksheet   = $workbook->add_worksheet();

	   ###############################################################################
	   #
	   # Add a handler for 7 digit id numbers. This is useful when you want a string
	   # such as 0000001 written as a string instead of a number and thus preserve
	   # the leading zeroes.
	   #
	   # Note: you can get the same effect using the keep_leading_zeros() method but
	   # this serves as a simple example.
	   #
	   $worksheet->add_write_handler(qr[^d{7}$], &write_my_id);

	   ###############################################################################
	   #
	   # The following function processes the data when a match is found. The handler
	   # is set up so that it only filters data if it is in the third column.
	   #
	   sub write_my_id {

	       my $worksheet = shift;
	       my $col	     = $_[1];

	       # col is zero based
	       if ($col != 2) {
		   return $worksheet->write_string(@_);
	       }
	       else {
		   # Reject the match and return control to write()
		   return undef;
	       }

	   }

	   # This format maintains the cell as text even if it is edited.
	   my $id_format   = $workbook->add_format(num_format => '@');

	   # Write some numbers in the user defined format
	   $worksheet->write('A1', '0000000', $id_format);
	   $worksheet->write('B1', '0000001', $id_format);
	   $worksheet->write('C1', '0000002', $id_format);
	   $worksheet->write('D1', '0000003', $id_format);

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/write_handler2.pl>

   Example: write_handler3.pl
       Example of how to add a user defined data handler to the Spreadsheet:: WriteExcel write() method.

       The following example shows how to add a handler for dates in a specific format.

       See write_handler4.pl for a more rigorous example with error handling.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to add a user defined data handler to the Spreadsheet::
	   # WriteExcel write() method.
	   #
	   # The following example shows how to add a handler for dates in a specific
	   # format.
	   #
	   # See write_handler4.pl for a more rigorous example with error handling.
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook    = Spreadsheet::WriteExcel->new("write_handler3.xls");
	   my $worksheet   = $workbook->add_worksheet();
	   my $date_format = $workbook->add_format(num_format => 'dd/mm/yy');

	   ###############################################################################
	   #
	   # Add a handler to match dates in the following format: d/m/yyyy
	   #
	   # The day and month can be single or double digits.
	   #
	   $worksheet->add_write_handler(qr[^d{1,2}/d{1,2}/d{4}$], &write_my_date);

	   ###############################################################################
	   #
	   # The following function processes the data when a match is found.
	   # See write_handler4.pl for a more rigorous example with error handling.
	   #
	   sub write_my_date {

	       my $worksheet = shift;
	       my @args      = @_;

	       my $token     = $args[2];
		  $token     =~ qr[^(d{1,2})/(d{1,2})/(d{4})$];

	       # Change to the date format required by write_date_time().
	       my $date = sprintf "%4d-%02d-%02dT", $3, $2, $1;

	       $args[2] = $date;

	       return $worksheet->write_date_time(@args);
	   }

	   # Write some dates in the user defined format
	   $worksheet->write('A1', '22/12/2004', $date_format);
	   $worksheet->write('A2', '1/1/1995',	 $date_format);
	   $worksheet->write('A3', '01/01/1995', $date_format);

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/write_handler3.pl>

   Example: write_handler4.pl
       Example of how to add a user defined data handler to the Spreadsheet:: WriteExcel write() method.

       The following example shows how to add a handler for dates in a specific format.

       This is a more rigorous version of write_handler3.pl.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to add a user defined data handler to the Spreadsheet::
	   # WriteExcel write() method.
	   #
	   # The following example shows how to add a handler for dates in a specific
	   # format.
	   #
	   # This is a more rigorous version of write_handler3.pl.
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook    = Spreadsheet::WriteExcel->new("write_handler4.xls");
	   my $worksheet   = $workbook->add_worksheet();
	   my $date_format = $workbook->add_format(num_format => 'dd/mm/yy');

	   ###############################################################################
	   #
	   # Add a handler to match dates in the following formats: d/m/yy, d/m/yyyy
	   #
	   # The day and month can be single or double digits and the year can be  2 or 4
	   # digits.
	   #
	   $worksheet->add_write_handler(qr[^d{1,2}/d{1,2}/d{2,4}$], &write_my_date);

	   ###############################################################################
	   #
	   # The following function processes the data when a match is found.
	   #
	   sub write_my_date {

	       my $worksheet = shift;
	       my @args      = @_;

	       my $token     = $args[2];

	       if ($token =~  qr[^(d{1,2})/(d{1,2})/(d{2,4})$]) {

		   my $day  = $1;
		   my $mon  = $2;
		   my $year = $3;

		   # Use a window for 2 digit dates. This will keep some ragged Perl
		   # programmer employed in thirty years time. :-)
		   if (length $year == 2) {
		       if ($year < 50) {
			   $year += 2000;
		       }
		       else {
			   $year += 1900;
		       }
		   }

		   my $date = sprintf "%4d-%02d-%02dT", $year, $mon, $day;

		   # Convert the ISO ISO8601 style string to an Excel date
		   $date = $worksheet->convert_date_time($date);

		   if (defined $date) {
		       # Date was valid
		       $args[2] = $date;
		       return $worksheet->write_number(@args);
		   }
		   else {
		       # Not a valid date therefore write as a string
		       return $worksheet->write_string(@args);
		   }
	       }
	       else {
		   # Shouldn't happen if the same match is used in the re and sub.
		   return undef;
	       }
	   }

	   # Write some dates in the user defined format
	   $worksheet->write('A1', '22/12/2004', $date_format);
	   $worksheet->write('A2', '22/12/04',	 $date_format);
	   $worksheet->write('A3', '2/12/04',	 $date_format);
	   $worksheet->write('A4', '2/5/04',	 $date_format);
	   $worksheet->write('A5', '2/5/95',	 $date_format);
	   $worksheet->write('A6', '2/5/1995',	 $date_format);

	   # Some erroneous dates
	   $worksheet->write('A8', '2/5/1895',	 $date_format); # Date out of Excel range
	   $worksheet->write('A9', '29/2/2003',  $date_format); # Invalid leap day
	   $worksheet->write('A10','50/50/50',	 $date_format); # Matches but isn't a date

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/write_handler4.pl>

   Example: write_to_scalar.pl
       An example of writing an Excel file to a Perl scalar using Spreadsheet:: WriteExcel and the new features of perl 5.8.

       For an examples of how to write to a scalar in versions prior to perl 5.8 see the filehandle.pl program and IO:Scalar.

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # An example of writing an Excel file to a Perl scalar using Spreadsheet::
	   # WriteExcel and the new features of perl 5.8.
	   #
	   # For an examples of how to write to a scalar in versions prior to perl 5.8
	   # see the filehandle.pl program and IO:Scalar.
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   require 5.008;

	   # Use perl 5.8's feature of using a scalar as a filehandle.
	   my	$fh;
	   my	$str = '';
	   open $fh, '>', $str or die "Failed to open filehandle: $!";;

	   # Or replace the previous three lines with this:
	   # open my $fh, '>', my $str or die "Failed to open filehandle: $!";

	   # Spreadsheet::WriteExce accepts filehandle as well as file names.
	   my $workbook  = Spreadsheet::WriteExcel->new($fh);
	   my $worksheet = $workbook->add_worksheet();

	   $worksheet->write(0, 0,  "Hi Excel!");

	   $workbook->close();

	   # The Excel file in now in $str. Remember to binmode() the output
	   # filehandle before printing it.
	   binmode STDOUT;
	   print $str;

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/write_to_scalar.pl>

   Example: unicode_utf16.pl
       A simple example of writing some Unicode text with Spreadsheet::WriteExcel.

       This example shows UTF16 encoding. With perl 5.8 it is also possible to use utf8 without modification.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example of writing some Unicode text with Spreadsheet::WriteExcel.
	   #
	   # This example shows UTF16 encoding. With perl 5.8 it is also possible to use
	   # utf8 without modification.
	   #
	   # reverse('X'), May 2004, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new('unicode_utf16.xls');
	   my $worksheet = $workbook->add_worksheet();

	   # Write the Unicode smiley face (with increased font for legibility)
	   my $smiley	 = pack "n", 0x263a;
	   my $big_font  = $workbook->add_format(size => 40);

	   $worksheet->write_utf16be_string('A3', $smiley, $big_font);

	   # Write a phrase in Cyrillic
	   my $uni_str = pack "H*", "042d0442043e002004440440043004370430002004".
				    "3d043000200440044304410441043a043e043c0021";

	   $worksheet->write_utf16be_string('A5', $uni_str);

	   $worksheet->write_utf16be_string('A7', pack "H*", "0074006500730074");

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_utf16.pl>

   Example: unicode_utf16_japan.pl
       A simple example of writing some Unicode text with Spreadsheet::WriteExcel.

       This creates an Excel file with the word Nippon in 3 character sets.

       This example shows UTF16 encoding. With perl 5.8 it is also possible to use utf8 without modification.

       See also the unicode_2022_jp.pl and unicode_shift_jis.pl examples.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example of writing some Unicode text with Spreadsheet::WriteExcel.
	   #
	   # This creates an Excel file with the word Nippon in 3 character sets.
	   #
	   # This example shows UTF16 encoding. With perl 5.8 it is also possible to use
	   # utf8 without modification.
	   #
	   # See also the unicode_2022_jp.pl and unicode_shift_jis.pl examples.
	   #
	   # reverse('X'), May 2004, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new('unicode_utf16_japan.xls');
	   my $worksheet = $workbook->add_worksheet();

	   # Set a Unicode font.
	   my $uni_font  = $workbook->add_format(font => 'Arial Unicode MS');

	   # Create some UTF-16BE Unicode text.
	   my $kanji	 = pack 'n*', 0x65e5, 0x672c;
	   my $katakana  = pack 'n*', 0xff86, 0xff8e, 0xff9d;
	   my $hiragana  = pack 'n*', 0x306b, 0x307b, 0x3093;

	   $worksheet->write_utf16be_string('A1', $kanji,    $uni_font);
	   $worksheet->write_utf16be_string('A2', $katakana, $uni_font);
	   $worksheet->write_utf16be_string('A3', $hiragana, $uni_font);

	   $worksheet->write('B1', 'Kanji');
	   $worksheet->write('B2', 'Katakana');
	   $worksheet->write('B3', 'Hiragana');

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_utf16_japan.pl>

   Example: unicode_cyrillic.pl
       A simple example of writing some Russian cyrillic text using Spreadsheet::WriteExcel and perl 5.8.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example of writing some Russian cyrillic text using
	   # Spreadsheet::WriteExcel and perl 5.8.
	   #
	   # reverse('X'), March 2005, John McNamara, jmcnamara@cpan.org
	   #

	   # Perl 5.8 or later is required for proper utf8 handling. For older perl
	   # versions you should use UTF16 and the write_utf16be_string() method.
	   # See the write_utf16be_string section of the Spreadsheet::WriteExcel docs.
	   #
	   require 5.008;

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # In this example we generate utf8 strings from character data but in a
	   # real application we would expect them to come from an external source.
	   #

	   # Create a Russian worksheet name in utf8.
	   my $sheet   = pack "U*", 0x0421, 0x0442, 0x0440, 0x0430, 0x043D, 0x0438,
				    0x0446, 0x0430;

	   # Create a Russian string.
	   my $str     = pack "U*", 0x0417, 0x0434, 0x0440, 0x0430, 0x0432, 0x0441,
				    0x0442, 0x0432, 0x0443, 0x0439, 0x0020, 0x041C,
				    0x0438, 0x0440, 0x0021;

	   my $workbook  = Spreadsheet::WriteExcel->new("unicode_cyrillic.xls");
	   my $worksheet = $workbook->add_worksheet($sheet . '1');

	      $worksheet->set_column('A:A', 18);
	      $worksheet->write('A1', $str);

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_cyrillic.pl>

   Example: unicode_list.pl
       A simple example using Spreadsheet::WriteExcel to display all available Unicode characters in a font.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example using Spreadsheet::WriteExcel to display all available
	   # Unicode characters in a font.
	   #
	   # reverse('X'), May 2004, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new('unicode_list.xls');
	   my $worksheet = $workbook->add_worksheet();

	   # Set a Unicode font.
	   my $uni_font  = $workbook->add_format(font => 'Arial Unicode MS');

	   # Ascii font for labels.
	   my $courier	 = $workbook->add_format(font => 'Courier New');

	   my $char = 0;

	   # Loop through all 32768 UTF-16BE characters.
	   #
	   for my $row (0 .. 2 ** 12 -1) {
	       for my $col (0 .. 31) {

		   last if $char == 0xffff;

		   if ($col % 2 == 0){
		       $worksheet->write_string($row, $col,
						      sprintf('0x%04X', $char), $courier);
		   }
		   else {
		       $worksheet->write_utf16be_string($row, $col,
						       pack('n', $char++), $uni_font);
		   }
	       }
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_list.pl>

   Example: unicode_2022_jp.pl
       A simple example of converting some Unicode text to an Excel file using Spreadsheet::WriteExcel and perl 5.8.

       This example generates some Japanese from a file with ISO-2022-JP encoded text.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example of converting some Unicode text to an Excel file using
	   # Spreadsheet::WriteExcel and perl 5.8.
	   #
	   # This example generates some Japanese from a file with ISO-2022-JP
	   # encoded text.
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   # Perl 5.8 or later is required for proper utf8 handling. For older perl
	   # versions you should use UTF16 and the write_utf16be_string() method.
	   # See the write_utf16be_string section of the Spreadsheet::WriteExcel docs.
	   #
	   require 5.008;

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("unicode_2022_jp.xls");
	   my $worksheet = $workbook->add_worksheet();
	      $worksheet->set_column('A:A', 50);

	   my $file = 'unicode_2022_jp.txt';

	   open FH, '<:encoding(iso-2022-jp)', $file  or die "Couldn't open $file: $!
";

	   my $row = 0;

	   while (<FH>) {
	       next if /^#/; # Ignore the comments in the sample file.
	       chomp;
	       $worksheet->write($row++, 0,  $_);
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_2022_jp.pl>

   Example: unicode_8859_11.pl
       A simple example of converting some Unicode text to an Excel file using Spreadsheet::WriteExcel and perl 5.8.

       This example generates some Thai from a file with ISO-8859-11 encoded text.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example of converting some Unicode text to an Excel file using
	   # Spreadsheet::WriteExcel and perl 5.8.
	   #
	   # This example generates some Thai from a file with ISO-8859-11 encoded text.
	   #
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   # Perl 5.8 or later is required for proper utf8 handling. For older perl
	   # versions you should use UTF16 and the write_utf16be_string() method.
	   # See the write_utf16be_string section of the Spreadsheet::WriteExcel docs.
	   #
	   require 5.008;

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("unicode_8859_11.xls");
	   my $worksheet = $workbook->add_worksheet();
	      $worksheet->set_column('A:A', 50);

	   my $file = 'unicode_8859_11.txt';

	   open FH, '<:encoding(iso-8859-11)', $file  or die "Couldn't open $file: $!
";

	   my $row = 0;

	   while (<FH>) {
	       next if /^#/; # Ignore the comments in the sample file.
	       chomp;
	       $worksheet->write($row++, 0,  $_);
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_8859_11.pl>

   Example: unicode_8859_7.pl
       A simple example of converting some Unicode text to an Excel file using Spreadsheet::WriteExcel and perl 5.8.

       This example generates some Greek from a file with ISO-8859-7 encoded text.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example of converting some Unicode text to an Excel file using
	   # Spreadsheet::WriteExcel and perl 5.8.
	   #
	   # This example generates some Greek from a file with ISO-8859-7 encoded text.
	   #
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   # Perl 5.8 or later is required for proper utf8 handling. For older perl
	   # versions you should use UTF16 and the write_utf16be_string() method.
	   # See the write_utf16be_string section of the Spreadsheet::WriteExcel docs.
	   #
	   require 5.008;

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("unicode_8859_7.xls");
	   my $worksheet = $workbook->add_worksheet();
	      $worksheet->set_column('A:A', 50);

	   my $file = 'unicode_8859_7.txt';

	   open FH, '<:encoding(iso-8859-7)', $file  or die "Couldn't open $file: $!
";

	   my $row = 0;

	   while (<FH>) {
	       next if /^#/; # Ignore the comments in the sample file.
	       chomp;
	       $worksheet->write($row++, 0,  $_);
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_8859_7.pl>

   Example: unicode_big5.pl
       A simple example of converting some Unicode text to an Excel file using Spreadsheet::WriteExcel and perl 5.8.

       This example generates some Chinese from a file with BIG5 encoded text.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example of converting some Unicode text to an Excel file using
	   # Spreadsheet::WriteExcel and perl 5.8.
	   #
	   # This example generates some Chinese from a file with BIG5 encoded text.
	   #
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   # Perl 5.8 or later is required for proper utf8 handling. For older perl
	   # versions you should use UTF16 and the write_utf16be_string() method.
	   # See the write_utf16be_string section of the Spreadsheet::WriteExcel docs.
	   #
	   require 5.008;

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("unicode_big5.xls");
	   my $worksheet = $workbook->add_worksheet();
	      $worksheet->set_column('A:A', 80);

	   my $file = 'unicode_big5.txt';

	   open FH, '<:encoding(big5)', $file  or die "Couldn't open $file: $!
";

	   my $row = 0;

	   while (<FH>) {
	       next if /^#/; # Ignore the comments in the sample file.
	       chomp;
	       $worksheet->write($row++, 0,  $_);
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_big5.pl>

   Example: unicode_cp1251.pl
       A simple example of converting some Unicode text to an Excel file using Spreadsheet::WriteExcel and perl 5.8.

       This example generates some Russian from a file with CP1251 encoded text.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example of converting some Unicode text to an Excel file using
	   # Spreadsheet::WriteExcel and perl 5.8.
	   #
	   # This example generates some Russian from a file with CP1251 encoded text.
	   #
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   # Perl 5.8 or later is required for proper utf8 handling. For older perl
	   # versions you should use UTF16 and the write_utf16be_string() method.
	   # See the write_utf16be_string section of the Spreadsheet::WriteExcel docs.
	   #
	   require 5.008;

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("unicode_cp1251.xls");
	   my $worksheet = $workbook->add_worksheet();
	      $worksheet->set_column('A:A', 50);

	   my $file = 'unicode_cp1251.txt';

	   open FH, '<:encoding(cp1251)', $file  or die "Couldn't open $file: $!
";

	   my $row = 0;

	   while (<FH>) {
	       next if /^#/; # Ignore the comments in the sample file.
	       chomp;
	       $worksheet->write($row++, 0,  $_);
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_cp1251.pl>

   Example: unicode_cp1256.pl
       A simple example of converting some Unicode text to an Excel file using Spreadsheet::WriteExcel and perl 5.8.

       This example generates some Arabic text from a CP-1256 encoded file.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example of converting some Unicode text to an Excel file using
	   # Spreadsheet::WriteExcel and perl 5.8.
	   #
	   # This example generates some Arabic text from a CP-1256 encoded file.
	   #
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   # Perl 5.8 or later is required for proper utf8 handling. For older perl
	   # versions you should use UTF16 and the write_utf16be_string() method.
	   # See the write_utf16be_string section of the Spreadsheet::WriteExcel docs.
	   #
	   require 5.008;

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("unicode_cp1256.xls");
	   my $worksheet = $workbook->add_worksheet();
	      $worksheet->set_column('A:A', 50);

	   my $file = 'unicode_cp1256.txt';

	   open FH, '<:encoding(cp1256)', $file  or die "Couldn't open $file: $!
";

	   my $row = 0;

	   while (<FH>) {
	       next if /^#/; # Ignore the comments in the sample file.
	       chomp;
	       $worksheet->write($row++, 0,  $_);
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_cp1256.pl>

   Example: unicode_koi8r.pl
       A simple example of converting some Unicode text to an Excel file using Spreadsheet::WriteExcel and perl 5.8.

       This example generates some Russian from a file with KOI8-R encoded text.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example of converting some Unicode text to an Excel file using
	   # Spreadsheet::WriteExcel and perl 5.8.
	   #
	   # This example generates some Russian from a file with KOI8-R encoded text.
	   #
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   # Perl 5.8 or later is required for proper utf8 handling. For older perl
	   # versions you should use UTF16 and the write_utf16be_string() method.
	   # See the write_utf16be_string section of the Spreadsheet::WriteExcel docs.
	   #
	   require 5.008;

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("unicode_koi8r.xls");
	   my $worksheet = $workbook->add_worksheet();
	      $worksheet->set_column('A:A', 50);

	   my $file = 'unicode_koi8r.txt';

	   open FH, '<:encoding(koi8-r)', $file  or die "Couldn't open $file: $!
";

	   my $row = 0;

	   while (<FH>) {
	       next if /^#/; # Ignore the comments in the sample file.
	       chomp;
	       $worksheet->write($row++, 0,  $_);
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_koi8r.pl>

   Example: unicode_polish_utf8.pl
       A simple example of converting some Unicode text to an Excel file using Spreadsheet::WriteExcel and perl 5.8.

       This example generates some Polish from a file with UTF8 encoded text.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example of converting some Unicode text to an Excel file using
	   # Spreadsheet::WriteExcel and perl 5.8.
	   #
	   # This example generates some Polish from a file with UTF8 encoded text.
	   #
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   # Perl 5.8 or later is required for proper utf8 handling. For older perl
	   # versions you should use UTF16 and the write_utf16be_string() method.
	   # See the write_utf16be_string section of the Spreadsheet::WriteExcel docs.
	   #
	   require 5.008;

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("unicode_polish_utf8.xls");
	   my $worksheet = $workbook->add_worksheet();
	      $worksheet->set_column('A:A', 50);

	   my $file = 'unicode_polish_utf8.txt';

	   open FH, '<:encoding(utf8)', $file  or die "Couldn't open $file: $!
";

	   my $row = 0;

	   while (<FH>) {
	       next if /^#/; # Ignore the comments in the sample file.
	       chomp;
	       $worksheet->write($row++, 0,  $_);
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_polish_utf8.pl>

   Example: unicode_shift_jis.pl
       A simple example of converting some Unicode text to an Excel file using Spreadsheet::WriteExcel and perl 5.8.

       This example generates some Japenese text from a file with Shift-JIS encoded text.

       Source code for this example:

	   #!/usr/bin/perl -w

	   ##############################################################################
	   #
	   # A simple example of converting some Unicode text to an Excel file using
	   # Spreadsheet::WriteExcel and perl 5.8.
	   #
	   # This example generates some Japenese text from a file with Shift-JIS
	   # encoded text.
	   #
	   # reverse('X'), September 2004, John McNamara, jmcnamara@cpan.org
	   #

	   # Perl 5.8 or later is required for proper utf8 handling. For older perl
	   # versions you should use UTF16 and the write_utf16be_string() method.
	   # See the write_utf16be_string section of the Spreadsheet::WriteExcel docs.
	   #
	   require 5.008;

	   use strict;
	   use Spreadsheet::WriteExcel;

	   my $workbook  = Spreadsheet::WriteExcel->new("unicode_shift_jis.xls");
	   my $worksheet = $workbook->add_worksheet();
	      $worksheet->set_column('A:A', 50);

	   my $file = 'unicode_shift_jis.txt';

	   open FH, '<:encoding(shiftjis)', $file  or die "Couldn't open $file: $!
";

	   my $row = 0;

	   while (<FH>) {
	       next if /^#/; # Ignore the comments in the sample file.
	       chomp;
	       $worksheet->write($row++, 0,  $_);
	   }

	   __END__

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/unicode_shift_jis.pl>

   Example: csv2xls.pl
       Example of how to use the WriteExcel module

       Simple program to convert a CSV comma-separated value file to an Excel file.  This is more or less an non-op since Excel can read CSV
       files.  The program uses Text::CSV_XS to parse the CSV.

       Usage: csv2xls.pl file.csv newfile.xls

       NOTE: This is only a simple conversion utility for illustrative purposes.  For converting a CSV or Tab separated or any other type of
       delimited text file to Excel I recommend the more rigorous csv2xls program that is part of H.Merijn Brand's Text::CSV_XS module distro.

       See the examples/csv2xls link here:
	   <http://search.cpan.org/~hmbrand/Text-CSV_XS/MANIFEST>

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to use the WriteExcel module
	   #
	   # Simple program to convert a CSV comma-separated value file to an Excel file.
	   # This is more or less an non-op since Excel can read CSV files.
	   # The program uses Text::CSV_XS to parse the CSV.
	   #
	   # Usage: csv2xls.pl file.csv newfile.xls
	   #
	   #
	   # NOTE: This is only a simple conversion utility for illustrative purposes.
	   # For converting a CSV or Tab separated or any other type of delimited
	   # text file to Excel I recommend the more rigorous csv2xls program that is
	   # part of H.Merijn Brand's Text::CSV_XS module distro.
	   #
	   # See the examples/csv2xls link here:
	   #	 L<http://search.cpan.org/~hmbrand/Text-CSV_XS/MANIFEST>
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;
	   use Text::CSV_XS;

	   # Check for valid number of arguments
	   if (($#ARGV < 1) || ($#ARGV > 2)) {
	      die("Usage: csv2xls csvfile.txt newfile.xls
");
	   };

	   # Open the Comma Separated Variable file
	   open (CSVFILE, $ARGV[0]) or die "$ARGV[0]: $!";

	   # Create a new Excel workbook
	   my $workbook  = Spreadsheet::WriteExcel->new($ARGV[1]);
	   my $worksheet = $workbook->add_worksheet();

	   # Create a new CSV parsing object
	   my $csv = Text::CSV_XS->new;

	   # Row and column are zero indexed
	   my $row = 0;

	   while (<CSVFILE>) {
	       if ($csv->parse($_)) {
		   my @Fld = $csv->fields;

		   my $col = 0;
		   foreach my $token (@Fld) {
		       $worksheet->write($row, $col, $token);
		       $col++;
		   }
		   $row++;
	       }
	       else {
		   my $err = $csv->error_input;
		   print "Text::CSV_XS parse() failed on argument: ", $err, "
";
	       }
	   }

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/csv2xls.pl>

   Example: tab2xls.pl
       Example of how to use the WriteExcel module

       The following converts a tab separated file into an Excel file

       Usage: tab2xls.pl tabfile.txt newfile.xls

       NOTE: This is only a simple conversion utility for illustrative purposes.  For converting a CSV or Tab separated or any other type of
       delimited text file to Excel I recommend the more rigorous csv2xls program that is part of H.Merijn Brand's Text::CSV_XS module distro.

       See the examples/csv2xls link here:
	   <http://search.cpan.org/~hmbrand/Text-CSV_XS/MANIFEST>

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to use the WriteExcel module
	   #
	   # The following converts a tab separated file into an Excel file
	   #
	   # Usage: tab2xls.pl tabfile.txt newfile.xls
	   #
	   #
	   # NOTE: This is only a simple conversion utility for illustrative purposes.
	   # For converting a CSV or Tab separated or any other type of delimited
	   # text file to Excel I recommend the more rigorous csv2xls program that is
	   # part of H.Merijn Brand's Text::CSV_XS module distro.
	   #
	   # See the examples/csv2xls link here:
	   #	 L<http://search.cpan.org/~hmbrand/Text-CSV_XS/MANIFEST>
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Check for valid number of arguments
	   if (($#ARGV < 1) || ($#ARGV > 2)) {
	       die("Usage: tab2xls tabfile.txt newfile.xls
");
	   };

	   # Open the tab delimited file
	   open (TABFILE, $ARGV[0]) or die "$ARGV[0]: $!";

	   # Create a new Excel workbook
	   my $workbook  = Spreadsheet::WriteExcel->new($ARGV[1]);
	   my $worksheet = $workbook->add_worksheet();

	   # Row and column are zero indexed
	   my $row = 0;

	   while (<TABFILE>) {
	       chomp;
	       # Split on single tab
	       my @Fld = split('	', $_);

	       my $col = 0;
	       foreach my $token (@Fld) {
		   $worksheet->write($row, $col, $token);
		   $col++;
	       }
	       $row++;
	   }

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/tab2xls.pl>

   Example: datecalc1.pl
       NOTE: An easier way of writing dates and times is to use the newer
	     write_date_time() Worksheet method. See the date_time.pl example.

       Demonstration of writing date/time cells to Excel spreadsheets, using UNIX/Perl time as source of date/time.

       UNIX/Perl time is the time since the Epoch (00:00:00 GMT, 1 Jan 1970) measured in seconds.

       An Excel file can use exactly one of two different date/time systems.  In these systems, a floating point number represents the number of
       days (and fractional parts of the day) since a start point. The floating point number is referred to as a 'serial'.

       The two systems ('1900' and '1904') use different starting points:

	'1900'; '1.00' is 1 Jan 1900 BUT 1900 is erroneously regarded as
		a leap year - see:
		  http://support.microsoft.com/support/kb/articles/Q181/3/70.asp
		for the excuse^H^H^H^H^H^Hreason.
	'1904'; '1.00' is 2 Jan 1904.

       The '1904' system is the default for Apple Macs. Windows versions of Excel have the option to use the '1904' system.

       Note that Visual Basic's "DateSerial" function does NOT erroneously regard 1900 as a leap year, and thus its serials do not agree with the
       1900 serials of Excel for dates before 1 Mar 1900.

       Note that StarOffice (at least at version 5.2) does NOT erroneously regard 1900 as a leap year, and thus its serials do not agree with the
       1900 serials of Excel for dates before 1 Mar 1900.

	   #!/usr/bin/perl -w

	   ######################################################################
	   #
	   # NOTE: An easier way of writing dates and times is to use the newer
	   #	   write_date_time() Worksheet method. See the date_time.pl example.
	   #
	   ######################################################################
	   #
	   # Demonstration of writing date/time cells to Excel spreadsheets,
	   # using UNIX/Perl time as source of date/time.
	   #
	   ######################################################################
	   #
	   # UNIX/Perl time is the time since the Epoch (00:00:00 GMT, 1 Jan 1970)
	   # measured in seconds.
	   #
	   # An Excel file can use exactly one of two different date/time systems.
	   # In these systems, a floating point number represents the number of days
	   # (and fractional parts of the day) since a start point. The floating point
	   # number is referred to as a 'serial'.
	   #
	   # The two systems ('1900' and '1904') use different starting points:
	   #
	   #  '1900'; '1.00' is 1 Jan 1900 BUT 1900 is erroneously regarded as
	   #	      a leap year - see:
	   #		http://support.microsoft.com/support/kb/articles/Q181/3/70.asp
	   #	      for the excuse^H^H^H^H^H^Hreason.
	   #  '1904'; '1.00' is 2 Jan 1904.
	   #
	   # The '1904' system is the default for Apple Macs. Windows versions of
	   # Excel have the option to use the '1904' system.
	   #
	   # Note that Visual Basic's "DateSerial" function does NOT erroneously
	   # regard 1900 as a leap year, and thus its serials do not agree with
	   # the 1900 serials of Excel for dates before 1 Mar 1900.
	   #
	   # Note that StarOffice (at least at version 5.2) does NOT erroneously
	   # regard 1900 as a leap year, and thus its serials do not agree with
	   # the 1900 serials of Excel for dates before 1 Mar 1900.
	   #

	   # Copyright 2000, Andrew Benham, adsb@bigfoot.com
	   #

	   ######################################################################
	   #
	   # Calculation description
	   # =======================
	   #
	   # 1900 system
	   # -----------
	   # Unix time is '0' at 00:00:00 GMT 1 Jan 1970, i.e. 70 years after 1 Jan 1900.
	   # Of those 70 years, 17 (1904,08,12,16,20,24,28,32,36,40,44,48,52,56,60,64,68)
	   # were leap years with an extra day.
	   # Thus there were 17 + 70*365 days = 25567 days between 1 Jan 1900 and
	   # 1 Jan 1970.
	   # In the 1900 system, '1' is 1 Jan 1900, but as 1900 was not a leap year
	   # 1 Jan 1900 should really be '2', so 1 Jan 1970 is '25569'.
	   #
	   # 1904 system
	   # -----------
	   # Unix time is '0' at 00:00:00 GMT 1 Jan 1970, i.e. 66 years after 1 Jan 1904.
	   # Of those 66 years, 17 (1904,08,12,16,20,24,28,32,36,40,44,48,52,56,60,64,68)
	   # were leap years with an extra day.
	   # Thus there were 17 + 66*365 days = 24107 days between 1 Jan 1904 and
	   # 1 Jan 1970.
	   # In the 1904 system, 2 Jan 1904 being '1', 1 Jan 1970 is '24107'.
	   #
	   ######################################################################
	   #
	   # Copyright (c) 2000, Andrew Benham.
	   # This program is free software. It may be used, redistributed and/or
	   # modified under the same terms as Perl itself.
	   #
	   # Andrew Benham, adsb@bigfoot.com
	   # London, United Kingdom
	   # 11 Nov 2000
	   #
	   ######################################################################

	   use strict;
	   use Spreadsheet::WriteExcel;

	   use Time::Local;

	   use vars qw/$DATE_SYSTEM/;

	   # Use 1900 date system on all platforms other than Apple Mac (for which
	   # use 1904 date system).
	   $DATE_SYSTEM = ($^O eq 'MacOS') ? 1 : 0;

	   my $workbook = Spreadsheet::WriteExcel->new("dates.xls");
	   my $worksheet = $workbook->add_worksheet();

	   my $format_date =  $workbook->add_format();
	   $format_date->set_num_format('d mmmm yyy');

	   $worksheet->set_column(0,1,21);

	   $worksheet->write_string (0,0,"The epoch (GMT)");
	   $worksheet->write_number (0,1,&calc_serial(0,1),0x16);

	   $worksheet->write_string (1,0,"The epoch (localtime)");
	   $worksheet->write_number (1,1,&calc_serial(0,0),0x16);

	   $worksheet->write_string (2,0,"Today");
	   $worksheet->write_number (2,1,&calc_serial(),$format_date);

	   my $christmas2000 = timelocal(0,0,0,25,11,100);
	   $worksheet->write_string (3,0,"Christmas 2000");
	   $worksheet->write_number (3,1,&calc_serial($christmas2000),$format_date);

	   $workbook->close();

	   #-----------------------------------------------------------
	   # calc_serial()
	   #
	   # Called with (up to) 2 parameters.
	   #   1.  Unix timestamp.  If omitted, uses current time.
	   #   2.  GMT flag. Set to '1' to return serial in GMT.
	   #	   If omitted, returns serial in appropriate timezone.
	   #
	   # Returns date/time serial according to $DATE_SYSTEM selected
	   #-----------------------------------------------------------
	   sub calc_serial {
	       my $time = (defined $_[0]) ? $_[0] : time();
	       my $gmtflag = (defined $_[1]) ? $_[1] : 0;

	       # Divide timestamp by number of seconds in a day.
	       # This gives a date serial with '0' on 1 Jan 1970.
	       my $serial = $time / 86400;

	       # Adjust the date serial by the offset appropriate to the
	       # currently selected system (1900/1904).
	       if ($DATE_SYSTEM == 0) {        # use 1900 system
		       $serial += 25569;
	       } else { 		       # use 1904 system
		       $serial += 24107;
	       }

	       unless ($gmtflag) {
		       # Now have a 'raw' serial with the right offset. But this
		       # gives a serial in GMT, which is false unless the timezone
		       # is GMT. We need to adjust the serial by the appropriate
		       # timezone offset.
		       # Calculate the appropriate timezone offset by seeing what
		       # the differences between localtime and gmtime for the given
		       # time are.

		       my @gmtime = gmtime($time);
		       my @ltime  = localtime($time);

		       # For the first 7 elements of the two arrays, adjust the
		       # date serial where the elements differ.
		       for (0 .. 6) {
			       my $diff = $ltime[$_] - $gmtime[$_];
			       if ($diff) {
				       $serial += _adjustment($diff,$_);
			       }
		       }
	       }

	       # Perpetuate the error that 1900 was a leap year by decrementing
	       # the serial if we're using the 1900 system and the date is prior to
	       # 1 Mar 1900. This has the effect of making serial value '60'
	       # 29 Feb 1900.

	       # This fix only has any effect if UNIX/Perl time on the platform
	       # can represent 1900. Many can't.

	       unless ($DATE_SYSTEM) {
		       $serial-- if ($serial < 61);    # '61' is 1 Mar 1900
	       }
	       return $serial;
	   }

	   sub _adjustment {
	       # Based on the difference in the localtime/gmtime array elements
	       # number, return the adjustment required to the serial.

	       # We only look at some elements of the localtime/gmtime arrays:
	       #    seconds    unlikely to be different as all known timezones
	       #	       have an offset of integral multiples of 15 minutes,
	       #	       but it's easy to do.
	       #    minutes    will be different for timezone offsets which are
	       #	       not an exact number of hours.
	       #    hours      very likely to be different.
	       #    weekday    will differ when localtime/gmtime difference
	       #	       straddles midnight.
	       #
	       # Assume that difference between localtime and gmtime is less than
	       # 5 days, then don't have to do maths for day of month, month number,
	       # year number, etc...

	       my ($delta,$element) = @_;
	       my $adjust = 0;

	       if ($element == 0) {	       # Seconds
		       $adjust = $delta/86400;	       # 60 * 60 * 24
	       } elsif ($element == 1) {       # Minutes
		       $adjust = $delta/1440;	       # 60 * 24
	       } elsif ($element == 2) {       # Hours
		       $adjust = $delta/24;	       # 24
	       } elsif ($element == 6) {       # Day of week number
		       # Catch difference straddling Sat/Sun in either direction
		       $delta += 7 if ($delta < -4);
		       $delta -= 7 if ($delta > 4);

		       $adjust = $delta;
	       }
	       return $adjust;
	   }

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/datecalc1.pl>

   Example: datecalc2.pl
       Example of how to using the Date::Calc module to calculate Excel dates.

       NOTE: An easier way of writing dates and times is to use the newer
	     write_date_time() Worksheet method. See the date_time.pl example.

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Example of how to using the Date::Calc module to calculate Excel dates.
	   #
	   # NOTE: An easier way of writing dates and times is to use the newer
	   #	   write_date_time() Worksheet method. See the date_time.pl example.
	   #
	   # reverse('X'), June 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;
	   use Date::Calc qw(Delta_DHMS); # You may need to install this module.

	   # Create a new workbook and add a worksheet
	   my $workbook = Spreadsheet::WriteExcel->new("excel_date2.xls");
	   my $worksheet = $workbook->add_worksheet();

	   # Expand the first column so that the date is visible.
	   $worksheet->set_column("A:A", 25);

	   # Add a format for the date
	   my $format =  $workbook->add_format();
	   $format->set_num_format('d mmmm yyy HH:MM:SS');

	   my $date;

	   # Write some dates and times
	   $date =  excel_date(1900, 1, 1);
	   $worksheet->write("A1", $date, $format);

	   $date =  excel_date(2000, 1, 1);
	   $worksheet->write("A2", $date, $format);

	   $date =  excel_date(2000, 4, 17, 14, 33, 15);
	   $worksheet->write("A3", $date, $format);

	   ###############################################################################
	   #
	   # excel_date($years, $months, $days, $hours, $minutes, $seconds)
	   #
	   # Create an Excel date in the 1900 format. All of the arguments are optional
	   # but you should at least add $years.
	   #
	   # Corrects for Excel's missing leap day in 1900. See excel_time1.pl for an
	   # explanation.
	   #
	   sub excel_date {

	       my $years   = $_[0] || 1900;
	       my $months  = $_[1] || 1;
	       my $days    = $_[2] || 1;
	       my $hours   = $_[3] || 0;
	       my $minutes = $_[4] || 0;
	       my $seconds = $_[5] || 0;

	       my @date = ($years, $months, $days, $hours, $minutes, $seconds);
	       my @epoch = (1899, 12, 31, 0, 0, 0);

	       ($days, $hours, $minutes, $seconds) = Delta_DHMS(@epoch, @date);

	       my $date = $days + ($hours*3600 +$minutes*60 +$seconds)/(24*60*60);

	       # Add a day for Excel's missing leap day in 1900
	       $date++ if ($date > 59);

	       return $date;
	   }

	   ###############################################################################
	   #
	   # excel_date($years, $months, $days, $hours, $minutes, $seconds)
	   #
	   # Create an Excel date in the 1904 format. All of the arguments are optional
	   # but you should at least add $years.
	   #
	   # You will also need to call $workbook->set_1904() for this format to be valid.
	   #
	   sub excel_date_1904 {

	       my $years   = $_[0] || 1900;
	       my $months  = $_[1] || 1;
	       my $days    = $_[2] || 1;
	       my $hours   = $_[3] || 0;
	       my $minutes = $_[4] || 0;
	       my $seconds = $_[5] || 0;

	       my @date = ($years, $months, $days, $hours, $minutes, $seconds);
	       my @epoch = (1904, 1, 1, 0, 0, 0);

	       ($days, $hours, $minutes, $seconds) = Delta_DHMS(@epoch, @date);

	       my $date = $days + ($hours*3600 +$minutes*60 +$seconds)/(24*60*60);

	       return $date;
	   }

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/datecalc2.pl>

   Example: lecxe.pl
       Utility program to convert an Excel file into a Spreadsheet::WriteExcel program using Win32::OLE

	   #!/usr/bin/perl -w

	   #
	   # Utility program to convert an Excel file into a Spreadsheet::WriteExcel
	   # program using Win32::OLE
	   #

	   #
	   # lecxe program
	   # by t0mas@netlords.net
	   #
	   # Version  0.01a    Initial release (alpha)

	   # Modules
	   use strict;
	   use Win32::OLE;
	   use Win32::OLE::Const;
	   use Getopt::Std;

	   # Vars
	   use vars qw(%opts);

	   # Get options
	   getopts('i:o:v',\%opts);

	   # Not enough options
	   exit &usage unless ($opts{i} && $opts{o});

	   # Create Excel object
	   my $Excel = new Win32::OLE("Excel.Application","Quit") or
		   die "Can't start excel: $!";

	   # Get constants
	   my $ExcelConst=Win32::OLE::Const->Load("Microsoft Excel");

	   # Show Excel
	   $Excel->{Visible} = 1 if ($opts{v});

	   # Open infile
	   my $Workbook = $Excel->Workbooks->Open({Filename=>$opts{i}});

	   # Open outfile
	   open (OUTFILE,">$opts{o}") or die "Can't open outfile $opts{o}: $!";

	   # Print header for outfile
	   print OUTFILE <<'EOH';
	   #!/usr/bin/perl -w

	   use strict;
	   use Spreadsheet::WriteExcel;

	   use vars qw($workbook %worksheets %formats);

	   $workbook = Spreadsheet::WriteExcel->new("_change_me_.xls");

	   EOH

	   # Loop all sheets
	   foreach my $sheetnum (1..$Excel->Workbooks(1)->Worksheets->Count) {

		   # Format sheet
		   my $name=$Excel->Workbooks(1)->Worksheets($sheetnum)->Name;
		   print "Sheet $name
" if ($opts{v});
		   print OUTFILE "# Sheet $name
";
		   print OUTFILE "$worksheets{'$name'} = $workbook->add_worksheet('$name');
";

		   # Get usedrange of cells in worksheet
		   my $usedrange=$Excel->Workbooks(1)->Worksheets($sheetnum)->UsedRange;

		   # Loop all columns in used range
		   foreach my $j (1..$usedrange->Columns->Count){

			   # Format column
			   print "Col $j
" if ($opts{v});
			   my ($colwidth);
			   $colwidth=$usedrange->Columns($j)->ColumnWidth;
			   print OUTFILE "# Column $j
";
			   print OUTFILE "$worksheets{'$name'}->set_column(".($j-1).",".($j-1).
				   ", $colwidth);
";

			   # Loop all rows in used range
			   foreach my $i (1..$usedrange->Rows->Count){

				   # Format row
				   print "Row $i
" if ($opts{v});
				   print OUTFILE "# Row $i
";
				   do {
					   my ($rowheight);
					   $rowheight=$usedrange->Rows($i)->RowHeight;
					   print OUTFILE "$worksheets{'$name'}->set_row(".($i-1).
						   ", $rowheight);
";
				   } if ($j==1);

				   # Start creating cell format
				   my $fname="$formats{'".$name.'R'.$i.'C'.$j."'}";
				   my $format="$fname=$workbook->add_format();
";
				   my $print_format=0;

				   # Check for borders
				   my @bfnames=qw(left right top bottom);
				   foreach my $k (1..$usedrange->Cells($i,$j)->Borders->Count) {
					   my $lstyle=$usedrange->Cells($i,$j)->Borders($k)->LineStyle;
					   if ($lstyle > 0) {
						   $format.=$fname."->set_".$bfnames[$k-1]."($lstyle);
";
						   $print_format=1;
					   }
				   }

				   # Check for font
				   my ($fontattr,$prop,$func,%fontsets,$fontColor);
				   %fontsets=(Name=>'set_font',
							   Size=>'set_size');
				   while (($prop,$func) = each %fontsets) {
					   $fontattr=$usedrange->Cells($i,$j)->Font->$prop;
					   if ($fontattr ne "") {
						   $format.=$fname."->$func('$fontattr');
";
						   $print_format=1;
					   }

				   }
				   %fontsets=(Bold=>'set_bold(1)',
							   Italic=>'set_italic(1)',
							   Underline=>'set_underline(1)',
							   Strikethrough=>'set_strikeout(1)',
							   Superscript=>'set_script(1)',
							   Subscript=>'set_script(2)',
							   OutlineFont=>'set_outline(1)',
							   Shadow=>'set_shadow(1)');
				   while (($prop,$func) = each %fontsets) {
					   $fontattr=$usedrange->Cells($i,$j)->Font->$prop;
					   if ($fontattr==1) {
						   $format.=$fname."->$func;
" ;

						   $print_format=1;
					   }
				   }
				   $fontColor=$usedrange->Cells($i,$j)->Font->ColorIndex();
				   if ($fontColor>0&&$fontColor!=$ExcelConst->{xlColorIndexAutomatic}) {
					   $format.=$fname."->set_color(".($fontColor+7).");
" ;
					   $print_format=1;
				   }

				   # Check text alignment, merging and wrapping
				   my ($halign,$valign,$merge,$wrap);
				   $halign=$usedrange->Cells($i,$j)->HorizontalAlignment;
				   my %hAligns=($ExcelConst->{xlHAlignCenter}=>"'center'",
					   $ExcelConst->{xlHAlignJustify}=>"'justify'",
					   $ExcelConst->{xlHAlignLeft}=>"'left'",
					   $ExcelConst->{xlHAlignRight}=>"'right'",
					   $ExcelConst->{xlHAlignFill}=>"'fill'",
					   $ExcelConst->{xlHAlignCenterAcrossSelection}=>"'merge'");
				   if ($halign!=$ExcelConst->{xlHAlignGeneral}) {
					   $format.=$fname."->set_align($hAligns{$halign});
";
					   $print_format=1;
				   }
				   $valign=$usedrange->Cells($i,$j)->VerticalAlignment;
				   my %vAligns=($ExcelConst->{xlVAlignBottom}=>"'bottom'",
					   $ExcelConst->{xlVAlignCenter}=>"'vcenter'",
					   $ExcelConst->{xlVAlignJustify}=>"'vjustify'",
					   $ExcelConst->{xlVAlignTop}=>"'top'");
				   if ($valign) {
					   $format.=$fname."->set_align($vAligns{$valign});
";
					   $print_format=1;
				   }
				   $merge=$usedrange->Cells($i,$j)->MergeCells;
				   if ($merge==1) {
					   $format.=$fname."->set_merge();
";

					   $print_format=1;
				   }
				   $wrap=$usedrange->Cells($i,$j)->WrapText;
				   if ($wrap==1) {
					   $format.=$fname."->set_text_wrap(1);
";

					   $print_format=1;
				   }

				   # Check patterns
				   my ($pattern,%pats);
				   %pats=(-4142=>0,-4125=>2,-4126=>3,-4124=>4,-4128=>5,-4166=>6,
						   -4121=>7,-4162=>8);
				   $pattern=$usedrange->Cells($i,$j)->Interior->Pattern;
				   if ($pattern&&$pattern!=$ExcelConst->{xlPatternAutomatic}) {
					   $pattern=$pats{$pattern} if ($pattern<0 && defined $pats{$pattern});
					   $format.=$fname."->set_pattern($pattern);
";

					   # Colors fg/bg
					   my ($cIndex);
					   $cIndex=$usedrange->Cells($i,$j)->Interior->PatternColorIndex;
					   if ($cIndex>0&&$cIndex!=$ExcelConst->{xlColorIndexAutomatic}) {
						   $format.=$fname."->set_bg_color(".($cIndex+7).");
";
					   }
					   $cIndex=$usedrange->Cells($i,$j)->Interior->ColorIndex;
					   if ($cIndex>0&&$cIndex!=$ExcelConst->{xlColorIndexAutomatic}) {
						   $format.=$fname."->set_fg_color(".($cIndex+7).");
";
					   }
					   $print_format=1;
				   }

				   # Check for number format
				   my ($num_format);
				   $num_format=$usedrange->Cells($i,$j)->NumberFormat;
				   if ($num_format ne "") {
					   $format.=$fname."->set_num_format('$num_format');
";
					   $print_format=1;
				   }

				   # Check for contents (text or formula)
				   my ($contents);
				   $contents=$usedrange->Cells($i,$j)->Formula;
				   $contents=$usedrange->Cells($i,$j)->Text if ($contents eq "");

				   # Print cell
				   if ($contents ne "" or $print_format) {
					   print OUTFILE "# Cell($i,$j)
";
					   print OUTFILE $format if ($print_format);
					   print OUTFILE "$worksheets{'$name'}->write(".($i-1).",".($j-1).
						   ",'$contents'";
					   print OUTFILE ",$fname" if ($print_format);
					   print OUTFILE ");
";
				   }
			   }
		   }
	   }

	   # Famous last words...
	   print OUTFILE "$workbook->close();
";

	   # Close outfile
	   close (OUTFILE) or die "Can't close outfile $opts{o}: $!";

	   ####################################################################
	   sub usage {
		   printf STDERR "usage: $0 [options]
".
			   "	Options:
".
			   "		-v	 	verbose mode
" .
			   "		-i <name>	name of input file
" .
			   "		-o <name>	name of output file
";
	   }

	   ####################################################################
	   sub END {
		   # Quit excel
		   do {
			   $Excel->{DisplayAlerts} = 0;
			   $Excel->Quit;
		   } if (defined $Excel);
	   }

	   __END__

	   =head1 NAME

	   lecxe - A Excel file to Spreadsheet::WriteExcel code converter

	   =head1 DESCRIPTION

	   This program takes an MS Excel workbook file as input and from
	   that file, produces an output file with Perl code that uses the
	   Spreadsheet::WriteExcel module to reproduce the original
	   file.

	   =head1 STUFF

	   Additional hands-on editing of the output file might be neccecary
	   as:

	   * This program always names the file produced by output script
	     _change_me_.xls

	   * Users of international Excel versions will have som work to do
	     on list separators and numeric punctation characters.

	   =head1 SEE ALSO

	   L<Win32::OLE>, L<Win32::OLE::Variant>, L<Spreadsheet::WriteExcel>

	   =head1 BUGS

	   * Picks wrong color on cells sometimes.

	   * Probably a few other...

	   =head1 DISCLAIMER

	   I do not guarantee B<ANYTHING> with this program. If you use it you
	   are doing so B<AT YOUR OWN RISK>! I may or may not support this
	   depending on my time schedule...

	   =head1 AUTHOR

	   t0mas@netlords.net

	   =head1 COPYRIGHT

	   Copyright 2001, t0mas@netlords.net

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

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/lecxe.pl>

   Example: convertA1.pl
       This program contains helper functions to deal with the Excel A1 cell reference	notation.

       These functions have been superseded by Spreadsheet::WriteExcel::Utility.

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # This program contains helper functions to deal with the Excel A1 cell
	   # reference	notation.
	   #
	   # These functions have been superseded by L<Spreadsheet::WriteExcel::Utility>.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;

	   print "
";
	   print "Cell B7   is equivalent to (";
	   print join " ", cell_to_rowcol('B7');
	   print ") in row column notation.
";

	   print "Cell $B7  is equivalent to (";
	   print join " ", cell_to_rowcol('$B7');
	   print ") in row column notation.
";

	   print "Cell B$7  is equivalent to (";
	   print join " ", cell_to_rowcol('B$7');
	   print ") in row column notation.
";

	   print "Cell $B$7 is equivalent to (";
	   print join " ", cell_to_rowcol('$B$7');
	   print ") in row column notation.

";

	   print "Row and column (1999, 29)	  are equivalent to ";
	   print rowcol_to_cell(1999, 29),   ".
";

	   print "Row and column (1999, 29, 0, 1) are equivalent to ";
	   print rowcol_to_cell(1999, 29, 0, 1),   ".

";

	   print "The base cell is:	Z7
";
	   print "Increment the row:	", inc_cell_row('Z7'), "
";
	   print "Decrement the row:	", dec_cell_row('Z7'), "
";
	   print "Increment the column: ", inc_cell_col('Z7'), "
";
	   print "Decrement the column: ", dec_cell_col('Z7'), "

";

	   ###############################################################################
	   #
	   # rowcol_to_cell($row, $col, $row_absolute, $col_absolute)
	   #
	   # Convert a zero based row and column reference to a A1 reference. For example
	   # (0, 2) to C1. $row_absolute, $col_absolute are optional. They are boolean
	   # values used to indicate if the row or column value is absolute, i.e. if it is
	   # prefixed by a $ sign: eg. (0, 2, 0, 1) converts to $C1.
	   #
	   # Returns: a cell reference string.
	   #
	   sub rowcol_to_cell {

	       my $row	   = $_[0];
	       my $col	   = $_[1];
	       my $row_abs = $_[2] || 0;
	       my $col_abs = $_[3] || 0;

	       if ($row_abs) {
		   $row_abs = '$'
	       }
	       else {
		   $row_abs = ''
	       }

	       if ($col_abs) {
		   $col_abs = '$'
	       }
	       else {
		   $col_abs = ''
	       }

	       my $int	= int ($col / 26);
	       my $frac = $col % 26 +1;

	       my $chr1 ='';
	       my $chr2 ='';

	       if ($frac != 0) {
		   $chr2 = chr (ord('A') + $frac -1);;
	       }

	       if ($int > 0) {
		   $chr1 = chr (ord('A') + $int  -1);
	       }

	       $row++;	   # Zero index to 1-index

	       return $col_abs . $chr1 . $chr2 . $row_abs. $row;
	   }

	   ###############################################################################
	   #
	   # cell_to_rowcol($cell_ref)
	   #
	   # Convert an Excel cell reference in A1 notation to a zero based row and column
	   # reference; converts C1 to (0, 2, 0, 0).
	   #
	   # Returns: row, column, row_is_absolute, column_is_absolute
	   #
	   #
	   sub cell_to_rowcol {

	       my $cell = shift;

	       $cell =~ /($?)([A-I]?[A-Z])($?)(d+)/;

	       my $col_abs = $1 eq "" ? 0 : 1;
	       my $col	   = $2;
	       my $row_abs = $3 eq "" ? 0 : 1;
	       my $row	   = $4;

	       # Convert base26 column string to number
	       # All your Base are belong to us.
	       my @chars  = split //, $col;
	       my $expn   = 0;
	       $col	  = 0;

	       while (@chars) {
		   my $char = pop(@chars); # LS char first
		   $col += (ord($char) -ord('A') +1) * (26**$expn);
		   $expn++;
	       }

	       # Convert 1-index to zero-index
	       $row--;
	       $col--;

	       return $row, $col, $row_abs, $col_abs;
	   }

	   ###############################################################################
	   #
	   # inc_cell_row($cell_ref)
	   #
	   # Increments the row number of an Excel cell reference in A1 notation.
	   # For example C3 to C4
	   #
	   # Returns: a cell reference string.
	   #
	   sub inc_cell_row {

	       my $cell = shift;
	       my ($row, $col, $row_abs, $col_abs) = cell_to_rowcol($cell);

	       $row++;

	       return rowcol_to_cell($row, $col, $row_abs, $col_abs);
	   }

	   ###############################################################################
	   #
	   # dec_cell_row($cell_ref)
	   #
	   # Decrements the row number of an Excel cell reference in A1 notation.
	   # For example C4 to C3
	   #
	   # Returns: a cell reference string.
	   #
	   sub dec_cell_row {

	       my $cell = shift;
	       my ($row, $col, $row_abs, $col_abs) = cell_to_rowcol($cell);

	       $row--;

	       return rowcol_to_cell($row, $col, $row_abs, $col_abs);
	   }

	   ###############################################################################
	   #
	   # inc_cell_col($cell_ref)
	   #
	   # Increments the column number of an Excel cell reference in A1 notation.
	   # For example C3 to D3
	   #
	   # Returns: a cell reference string.
	   #
	   sub inc_cell_col {

	       my $cell = shift;
	       my ($row, $col, $row_abs, $col_abs) = cell_to_rowcol($cell);

	       $col++;

	       return rowcol_to_cell($row, $col, $row_abs, $col_abs);
	   }

	   ###############################################################################
	   #
	   # dec_cell_col($cell_ref)
	   #
	   # Decrements the column number of an Excel cell reference in A1 notation.
	   # For example D3 to C3
	   #
	   # Returns: a cell reference string.
	   #
	   sub dec_cell_col {

	       my $cell = shift;
	       my ($row, $col, $row_abs, $col_abs) = cell_to_rowcol($cell);

	       $col--;

	       return rowcol_to_cell($row, $col, $row_abs, $col_abs);
	   }

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/convertA1.pl>

   Example: function_locale.pl
       Generate function names for different locales.

       This program can be used to generate the hash of known functions for use in the Formula.pm module. By default the function names are in
       English but you can also choose to support the following languages: German, French, Spanish, Portuguese, Dutch, Finnish, Italian and
       Swedish.

       This would allow you to do something like the following:

	     $worksheet->write(0, 0, '=SUM(C1:C3)'  );
	     $worksheet->write(1, 0, '=SUMME(C1:C3)');
	     $worksheet->write(2, 0, '=SOMME(C1:C3)');
	     $worksheet->write(3, 0, '=SUMA(C1:C3)' );
	     $worksheet->write(4, 0, '=SOMA(C1:C3)' );
	     $worksheet->write(5, 0, '=SOM(C1:C3)'  );
	     $worksheet->write(6, 0, '=SUMMA(C1:C3)');
	     $worksheet->write(7, 0, '=SOMMA(C1:C3)');

       Unfortunately, if you wish to support more than one language there are some conflicts between function names:

	     Function	     Language 1 	     Language 2
	     ========	     ========== 	     ==========
	     NB 	     French		     Dutch
	     NA 	     English/French	     Finnish
	     TRIM	     French		     English
	     DIA	     Spanish/Portuguese      German

       Therefore, if you try to generate a hash of function names to support both French and English then the function TRIM will be assigned the
       meaning of the first language that defines it, which in this case is French. You can get around this by renaming the function for one of
       the languages and documenting the change, for example: TRIM.EN or TRIM.FR.

       Please note that this only partially solves the problem of localisation.  There are also number formats to consider (1.5 == 1,5) and the
       fact that the list separator "," and the array separator ";" are interchanged in different locales.

       The longest function name is LOI.NORMALE.STANDARD.INVERSE (29 chars) followed by NORM.JAKAUMA.NORMIT.KAeAeNT (25 chars).  The shortest
       function name in all languages is T.

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # Generate function names for different locales.
	   #
	   # This program can be used to generate the hash of known functions for use in
	   # the Formula.pm module. By default the function names are in English but you
	   # can also choose to support the following languages: German, French, Spanish,
	   # Portuguese, Dutch, Finnish, Italian and Swedish.
	   #
	   # This would allow you to do something like the following:
	   #
	   #	   $worksheet->write(0, 0, '=SUM(C1:C3)'  );
	   #	   $worksheet->write(1, 0, '=SUMME(C1:C3)');
	   #	   $worksheet->write(2, 0, '=SOMME(C1:C3)');
	   #	   $worksheet->write(3, 0, '=SUMA(C1:C3)' );
	   #	   $worksheet->write(4, 0, '=SOMA(C1:C3)' );
	   #	   $worksheet->write(5, 0, '=SOM(C1:C3)'  );
	   #	   $worksheet->write(6, 0, '=SUMMA(C1:C3)');
	   #	   $worksheet->write(7, 0, '=SOMMA(C1:C3)');
	   #
	   # Unfortunately, if you wish to support more than one language there are some
	   # conflicts between function names:
	   #
	   #	   Function	   Language 1		   Language 2
	   #	   ========	   ==========		   ==========
	   #	   NB		   French		   Dutch
	   #	   NA		   English/French	   Finnish
	   #	   TRIM 	   French		   English
	   #	   DIA		   Spanish/Portuguese	   German
	   #
	   # Therefore, if you try to generate a hash of function names to support both
	   # French and English then the function TRIM will be assigned the meaning of the
	   # first language that defines it, which in this case is French. You can get
	   # around this by renaming the function for one of the languages and documenting
	   # the change, for example: TRIM.EN or TRIM.FR.
	   #
	   # Please note that this only partially solves the problem of localisation.
	   # There are also number formats to consider (1.5 == 1,5) and the fact that the
	   # list separator "," and the array separator ";" are interchanged in different
	   # locales.
	   #
	   # The longest function name is LOI.NORMALE.STANDARD.INVERSE (29 chars) followed
	   # by NORM.JAKAUMA.NORMIT.KAeAeNT (25 chars).
	   # The shortest function name in all languages is T.
	   #
	   #
	   # reverse('X'); John McNamara, March 2001, jmcnamara@cpan.org
	   #

	   use strict;

	   #
	   # Modify the following variables to add the language to the function name hash
	   #
	   my $english	  = 1;
	   my $german	  = 0;
	   my $french	  = 0;
	   my $spanish	  = 0;
	   my $portuguese = 0;
	   my $dutch	  = 0;
	   my $finnish	  = 0;
	   my $italian	  = 0;
	   my $swedish	  = 0;

	   my %funcs;

	   # Ignore the headings
	   <DATA>;

	   # Print the beginning of the hash definition
	   print "    %functions  = (
";
	   print "	  #" . " " x 37 ;
	   print "ptg  args  class  vol
";

	   while (<DATA>){
	       my @F = split " ";
	       my $value = $F[0];
	       my $args  = $F[1];
	       my $ref	 = $F[2];
	       my $vol	 = $F[3];

	       print_function($F[4],  $value, $args, $ref, $vol) if $english;
	       print_function($F[5],  $value, $args, $ref, $vol) if $german;
	       print_function($F[6],  $value, $args, $ref, $vol) if $french;
	       print_function($F[7],  $value, $args, $ref, $vol) if $spanish;
	       print_function($F[8],  $value, $args, $ref, $vol) if $portuguese;
	       print_function($F[9],  $value, $args, $ref, $vol) if $dutch;
	       print_function($F[10], $value, $args, $ref, $vol) if $finnish;
	       print_function($F[11], $value, $args, $ref, $vol) if $italian;
	       print_function($F[12], $value, $args, $ref, $vol) if $swedish;
	   }
	   # Print the end of the hash definition
	   print "    );
";

	   ###############################################################################
	   #
	   # Function to print the function names. It prints a warning if there is a
	   # clash.
	   #
	   sub print_function {

	       my $func  = shift;
	       my $value = shift;
	       my $args  = shift;
	       my $ref	 = shift;
	       my $vol	 = shift;

	       $func = "'$func'";

	       if (not exists $funcs{$func}) {
		   printf("	   %-31s => [%4d, %4d, %4d, %4d ],
",
					      $func, $value, $args, $ref, $vol);
		   $funcs{$func} = $value;
	       }
	       else {
		   if ($funcs{$func} != $value) {
		       print "	      # Warning ";
		       print $func, " is already defined in another language
";
		       printf("        #%-31s => [%4d, %4d, %4d, %4d ],
",
						   $func, $value, $args, $ref, $vol);
		   }
	       }
	   }

	   # Note: The following data contains the function names in the various
	   # languages. These lines are LONG.

	   __DATA__
	   Value   Args    Refclass   Volatile	 English			    German			       French				  Spanish			     Portuguese 			Dutch			     Finnish				Italian 			   Swedish
	   0	   -1	   0	      0 	 COUNT				    ANZAHL			       NB				  CONTAR			     CONT.NUM				AANTAL			     LASKE				CONTA.NUMERI			   ANTAL
	   1	   -1	   1	      0 	 IF				    WENN			       SI				  SI				     SE 				ALS			     JOS				SE				   OM
	   2	    1	   1	      0 	 ISNA				    ISTNV			       ESTNA				  ESNOD 			     E.NA~O.DISP			 ISNB			      ONPUUTTUU 			 VAL.NON.DISP			    AeRSAKNAD
	   3	    1	   1	      0 	 ISERROR			    ISTFEHLER			       ESTERREUR			  ESERROR			     EERROS				ISFOUT			     ONVIRHE				VAL.ERRORE			   AeRFEL
	   4	   -1	   0	      0 	 SUM				    SUMME			       SOMME				  SUMA				     SOMA				SOM			     SUMMA				SOMMA				   SUMMA
	   5	   -1	   0	      0 	 AVERAGE			    MITTELWERT			       MOYENNE				  PROMEDIO			     MEDIA				GEMIDDELDE		     KESKIARVO				MEDIA				   MEDEL
	   6	   -1	   0	      0 	 MIN				    MIN 			       MIN				  MIN				     MINIMO				MIN			     MIN				MIN				   MIN
	   7	   -1	   0	      0 	 MAX				    MAX 			       MAX				  MAX				     MAXIMO				MAX			     MAKS				MAX				   MAX
	   8	   -1	   0	      0 	 ROW				    ZEILE			       LIGNE				  FILA				     LIN				RIJ			     RIVI				RIF.RIGA			   RAD
	   9	   -1	   0	      0 	 COLUMN 			    SPALTE			       COLONNE				  COLUMNA			     COL				KOLOM			     SARAKE				RIF.COLONNA			   KOLUMN
	   10	    0	   0	      0 	 NA				    NV				       NA				  NOD				     NA~O.DISP				 NB			      PUUTTUU				 NON.DISP			    SAKNAS
	   11	   -1	   1	      0 	 NPV				    NBW 			       VAN				  VNA				     VPL				NHW			     NNA				VAN				   NETNUVAeRDE
	   12	   -1	   0	      0 	 STDEV				    STABW			       ECARTYPE 			  DESVEST			     DESVPAD				STDEV			     KESKIHAJONTA			DEV.ST				   STDAV
	   13	   -1	   1	      0 	 DOLLAR 			    DM				       FRANC				  MONEDA			     MOEDA				GULDEN			     VALUUTTA				VALUTA				   VALUTA
	   14	   -1	   1	      0 	 FIXED				    FEST			       CTXT				  DECIMAL			     DEF.NUM.DEC			VAST			     KIINTEAe				 FISSO				    FASTTAL
	   15	    1	   1	      0 	 SIN				    SIN 			       SIN				  SENO				     SEN				SIN			     SIN				SEN				   SIN
	   16	    1	   1	      0 	 COS				    COS 			       COS				  COS				     COS				COS			     COS				COS				   COS
	   17	    1	   1	      0 	 TAN				    TAN 			       TAN				  TAN				     TAN				TAN			     TAN				TAN				   TAN
	   18	    1	   1	      0 	 ATAN				    ARCTAN			       ATAN				  ATAN				     ATAN				BOOGTAN 		     ATAN				ARCTAN				   ARCTAN
	   19	    0	   1	      0 	 PI				    PI				       PI				  PI				     PI 				PI			     PII				PI.GRECO			   PI
	   20	    1	   1	      0 	 SQRT				    WURZEL			       RACINE				  RAIZ				     RAIZ				WORTEL			     NELIOeJUURI			 RADQ				    ROT
	   21	    1	   1	      0 	 EXP				    EXP 			       EXP				  EXP				     EXP				EXP			     EKSPONENTTI			EXP				   EXP
	   22	    1	   1	      0 	 LN				    LN				       LN				  LN				     LN 				LN			     LUONNLOG				LN				   LN
	   23	    1	   1	      0 	 LOG10				    LOG10			       LOG10				  LOG10 			     LOG10				LOG10			     LOG10				LOG10				   LOG10
	   24	    1	   1	      0 	 ABS				    ABS 			       ABS				  ABS				     ABS				ABS			     ITSEISARVO 			ASS				   ABS
	   25	    1	   1	      0 	 INT				    GANZZAHL			       ENT				  ENTERO			     INT				INTEGER 		     KOKONAISLUKU			INT				   HELTAL
	   26	    1	   1	      0 	 SIGN				    VORZEICHEN			       SIGNE				  SIGNO 			     SINAL				POS.NEG 		     ETUMERKKI				SEGNO				   TECKEN
	   27	    2	   1	      0 	 ROUND				    RUNDEN			       ARRONDI				  REDONDEAR			     ARRED				AFRONDEN		     PYOeRISTAe 			  ARROTONDA			     AVRUNDA
	   28	   -1	   0	      0 	 LOOKUP 			    VERWEIS			       RECHERCHE			  BUSCAR			     PROC				ZOEKEN			     HAKU				CERCA				   LETAUPP
	   29	   -1	   0	      1 	 INDEX				    INDEX			       INDEX				  INDICE			     INDICE				INDEX			     INDEKSI				INDICE				   INDEX
	   30	    2	   1	      0 	 REPT				    WIEDERHOLEN 		       REPT				  REPETIR			     REPETIR				HERHALING		     TOISTA				RIPETI				   REP
	   31	    3	   1	      0 	 MID				    TEIL			       STXT				  EXTRAE			     EXT.TEXTO				DEEL			     POIMI.TEKSTI			STRINGA.ESTRAI			   EXTEXT
	   32	    1	   1	      0 	 LEN				    LAeNGE				NBCAR				   LARGO			      NUM.CARACT			 LENGTE 		      PITUUS				 LUNGHEZZA			    LAeNGD
	   33	    1	   1	      0 	 VALUE				    WERT			       CNUM				  VALOR 			     VALOR				WAARDE			     ARVO				VALORE				   TEXTNUM
	   34	    0	   1	      0 	 TRUE				    WAHR			       VRAI				  VERDADERO			     VERDADEIRO 			WAAR			     TOSI				VERO				   SANT
	   35	    0	   1	      0 	 FALSE				    FALSCH			       FAUX				  FALSO 			     FALSO				ONWAAR			     EPAeTOSI				 FALSO				    FALSKT
	   36	   -1	   0	      0 	 AND				    UND 			       ET				  Y				     E					EN			     JA 				E				   OCH
	   37	   -1	   0	      0 	 OR				    ODER			       OU				  O				     OU 				OF			     TAI				O				   ELLER
	   38	    1	   1	      0 	 NOT				    NICHT			       NON				  NO				     NA~O				 NIET			      EI				 NON				    ICKE
	   39	    2	   1	      0 	 MOD				    REST			       MOD				  RESIDUO			     MOD				REST			     JAKOJ				RESTO				   REST
	   40	    3	   0	      0 	 DCOUNT 			    DBANZAHL			       BDNB				  BDCONTAR			     BDCONTAR				DBAANTAL		     TLASKE				DB.CONTA.NUMERI 		   DANTAL
	   41	    3	   0	      0 	 DSUM				    DBSUMME			       BDSOMME				  BDSUMA			     BDSOMA				DBSOM			     TSUMMA				DB.SOMMA			   DSUMMA
	   42	    3	   0	      0 	 DAVERAGE			    DBMITTELWERT		       BDMOYENNE			  BDPROMEDIO			     BDMEDIA				DBGEMIDDELDE		     TKESKIARVO 			DB.MEDIA			   DMEDEL
	   43	    3	   0	      0 	 DMIN				    DBMIN			       BDMIN				  BDMIN 			     BDMIN				DBMIN			     TMIN				DB.MIN				   DMIN
	   44	    3	   0	      0 	 DMAX				    DBMAX			       BDMAX				  BDMAX 			     BDMAX				DBMAX			     TMAKS				DB.MAX				   DMAX
	   45	    3	   0	      0 	 DSTDEV 			    DBSTDABW			       BDECARTYPE			  BDDESVEST			     BDEST				DBSTDEV 		     TKESKIHAJONTA			DB.DEV.ST			   DSTDAV
	   46	   -1	   0	      0 	 VAR				    VARIANZ			       VAR				  VAR				     VAR				VAR			     VAR				VAR				   VARIANS
	   47	    3	   0	      0 	 DVAR				    DBVARIANZ			       BDVAR				  BDVAR 			     BDVAREST				DBVAR			     TVARIANSSI 			DB.VAR				   DVARIANS
	   48	    2	   1	      0 	 TEXT				    TEXT			       TEXTE				  TEXTO 			     TEXTO				TEKST			     TEKSTI				TESTO				   TEXT
	   49	   -1	   0	      0 	 LINEST 			    RGP 			       DROITEREG			  ESTIMACION.LINEAL		     PROJ.LIN				LIJNSCH 		     LINREGR				REGR.LIN			   REGR
	   50	   -1	   0	      0 	 TREND				    TREND			       TENDANCE 			  TENDENCIA			     TENDENCIA				TREND			     SUUNTAUS				TENDENZA			   TREND
	   51	   -1	   0	      0 	 LOGEST 			    RKP 			       LOGREG				  ESTIMACION.LOGARITMICA	     PROJ.LOG				LOGSCH			     LOGREGR				REGR.LOG			   EXPREGR
	   52	   -1	   0	      0 	 GROWTH 			    VARIATION			       CROISSANCE			  CRECIMIENTO			     CRESCIMENTO			GROEI			     KASVU				CRESCITA			   EXPTREND
	   56	   -1	   1	      0 	 PV				    BW				       VA				  VA				     VP 				HW			     NA 				VA				   NUVAeRDE
	   57	   -1	   1	      0 	 FV				    ZW				       VC				  VF				     VF 				TW			     TULEVA.ARVO			VAL.FUT 			   SLUTVAeRDE
	   58	   -1	   1	      0 	 NPER				    ZZR 			       NPM				  NPER				     NPER				NPER			     NJAKSO				NUM.RATE			   PERIODER
	   59	   -1	   1	      0 	 PMT				    RMZ 			       VPM				  PAGO				     PGTO				BET			     MAKSU				RATA				   BETALNING
	   60	   -1	   1	      0 	 RATE				    ZINS			       TAUX				  TASA				     TAXA				RENTE			     KORKO				TASSO				   RAeNTA
	   61	    3	   0	      0 	 MIRR				    QIKV			       TRIM				  TIRM				     MTIR				GIR			     MSISAeINEN 			 TIR.VAR			    MODIR
	   62	   -1	   0	      0 	 IRR				    IKV 			       TRI				  TIR				     TIR				IR			     SISAeINEN.KORKO			 TIR.COST			    IR
	   63	    0	   1	      1 	 RAND				    ZUFALLSZAHL 		       ALEA				  ALEATORIO			     ALEATORIO				ASELECT 		     SATUNNAISLUKU			CASUALE 			   SLUMP
	   64	   -1	   0	      0 	 MATCH				    VERGLEICH			       EQUIV				  COINCIDIR			     CORRESP				VERGELIJKEN		     VASTINE				CONFRONTA			   PASSA
	   65	    3	   1	      0 	 DATE				    DATUM			       DATE				  FECHA 			     DATA				DATUM			     PAeIVAeYS				  DATA				     DATUM
	   66	    3	   1	      0 	 TIME				    ZEIT			       TEMPS				  NSHORA			     TEMPO				TIJD			     AIKA				ORARIO				   KLOCKSLAG
	   67	    1	   1	      0 	 DAY				    TAG 			       JOUR				  DIA				     DIA				DAG			     PAeIVAe				  GIORNO			     DAG
	   68	    1	   1	      0 	 MONTH				    MONAT			       MOIS				  MES				     MES				MAAND			     KUUKAUSI				MESE				   MAaNAD
	   69	    1	   1	      0 	 YEAR				    JAHR			       ANNEE				  AN~O				      ANO				 JAAR			      VUOSI				 ANNO				    AaR
	   70	   -1	   1	      0 	 WEEKDAY			    WOCHENTAG			       JOURSEM				  DIASEM			     DIA.DA.SEMANA			WEEKDAG 		     VIIKONPAeIVAe			  GIORNO.SETTIMANA		     VECKODAG
	   71	    1	   1	      0 	 HOUR				    STUNDE			       HEURE				  HORA				     HORA				UUR			     TUNNIT				ORA				   TIMME
	   72	    1	   1	      0 	 MINUTE 			    MINUTE			       MINUTE				  MINUTO			     MINUTO				MINUUT			     MINUUTIT				MINUTO				   MINUT
	   73	    1	   1	      0 	 SECOND 			    SEKUNDE			       SECONDE				  SEGUNDO			     SEGUNDO				SECONDE 		     SEKUNNIT				SECONDO 			   SEKUND
	   74	    0	   1	      1 	 NOW				    JETZT			       MAINTENANT			  AHORA 			     AGORA				NU			     NYT				ADESSO				   NU
	   75	    1	   0	      1 	 AREAS				    BEREICHE			       ZONES				  AREAS 			     AREAS				BEREIKEN		     ALUEET				AREE				   OMRAaDEN
	   76	    1	   0	      1 	 ROWS				    ZEILEN			       LIGNES				  FILAS 			     LINS				RIJEN			     RIVIT				RIGHE				   RADER
	   77	    1	   0	      1 	 COLUMNS			    SPALTEN			       COLONNES 			  COLUMNAS			     COLS				KOLOMMEN		     SARAKKEET				COLONNE 			   KOLUMNER
	   78	   -1	   0	      1 	 OFFSET 			    BEREICH.VERSCHIEBEN 	       DECALER				  DESREF			     DESLOC				VERSCHUIVING		     SIIRTYMAe				 SCARTO 			    FOeRSKJUTNING
	   82	   -1	   1	      0 	 SEARCH 			    SUCHEN			       CHERCHE				  HALLAR			     LOCALIZAR				VIND.SPEC		     KAeY.LAePI 			  RICERCA			     SOeK
	   83	    1	   1	      0 	 TRANSPOSE			    MTRANS			       TRANSPOSE			  TRANSPONER			     TRANSPOR				TRANSPONEREN		     TRANSPONOI 			MATR.TRASPOSTA			   TRANSPONERA
	   86	    1	   1	      0 	 TYPE				    TYP 			       TYPE				  TIPO				     TIPO				TYPE			     TYYPPI				TIPO				   VAeRDETYP
	   97	    2	   1	      0 	 ATAN2				    ARCTAN2			       ATAN2				  ATAN2 			     ATAN2				BOOGTAN2		     ATAN2				ARCTAN.2			   ARCTAN2
	   98	    1	   1	      0 	 ASIN				    ARCSIN			       ASIN				  ASENO 			     ASEN				BOOGSIN 		     ASIN				ARCSEN				   ARCSIN
	   99	    1	   1	      0 	 ACOS				    ARCCOS			       ACOS				  ACOS				     ACOS				BOOGCOS 		     ACOS				ARCCOS				   ARCCOS
	   100	   -1	   1	      0 	 CHOOSE 			    WAHL			       CHOISIR				  ELEGIR			     ESCOLHER				KIEZEN			     VALITSE.INDEKSI			SCEGLI				   VAeLJ
	   101	   -1	   0	      0 	 HLOOKUP			    WVERWEIS			       RECHERCHEH			  BUSCARH			     PROCH				HORIZ.ZOEKEN		     VHAKU				CERCA.ORIZZ			   LETAKOLUMN
	   102	   -1	   0	      0 	 VLOOKUP			    SVERWEIS			       RECHERCHEV			  BUSCARV			     PROCV				VERT.ZOEKEN		     PHAKU				CERCA.VERT			   LETARAD
	   105	    1	   0	      0 	 ISREF				    ISTBEZUG			       ESTREF				  ESREF 			     EREF				ISVERWIJZING		     ONVIITT				VAL.RIF 			   AeRREF
	   109	   -1	   1	      0 	 LOG				    LOG 			       LOG				  LOG				     LOG				LOG			     LOG				LOG				   LOG
	   111	    1	   1	      0 	 CHAR				    ZEICHEN			       CAR				  CARACTER			     CARACT				TEKEN			     MERKKI				CODICE.CARATT			   TECKENKOD
	   112	    1	   1	      0 	 LOWER				    KLEIN			       MINUSCULE			  MINUSC			     MINUSCULA				KLEINE.LETTERS		     PIENET				MINUSC				   GEMENER
	   113	    1	   1	      0 	 UPPER				    GROSS			       MAJUSCULE			  MAYUSC			     MAIUSCULA				HOOFDLETTERS		     ISOT				MAIUSC				   VERSALER
	   114	    1	   1	      0 	 PROPER 			    GROSS2			       NOMPROPRE			  NOMPROPIO			     PRI.MAIUSCULA			BEGINLETTERS		     ERISNIMI				MAIUSC.INIZ			   INITIAL
	   115	   -1	   1	      0 	 LEFT				    LINKS			       GAUCHE				  IZQUIERDA			     ESQUERDA				LINKS			     VASEN				SINISTRA			   VAeNSTER
	   116	   -1	   1	      0 	 RIGHT				    RECHTS			       DROITE				  DERECHA			     DIREITA				RECHTS			     OIKEA				DESTRA				   HOeGER
	   117	    2	   1	      0 	 EXACT				    IDENTISCH			       EXACT				  IGUAL 			     EXATO				GELIJK			     VERTAA				IDENTICO			   EXAKT
	   118	    1	   1	      0 	 TRIM				    GLAeTTEN				SUPPRESPACE			   ESPACIOS			      ARRUMAR				 SPATIES.WISSEN 	      POISTA.VAeLIT			  ANNULLA.SPAZI 		     RENSA
	   119	    4	   1	      0 	 REPLACE			    ERSETZEN			       REMPLACER			  REEMPLAZAR			     MUDAR				VERVANGEN		     KORVAA				RIMPIAZZA			   ERSAeTT
	   120	   -1	   1	      0 	 SUBSTITUTE			    WECHSELN			       SUBSTITUE			  SUSTITUIR			     SUBSTITUIR 			SUBSTITUEREN		     VAIHDA				SOSTITUISCI			   BYT.UT
	   121	    1	   1	      0 	 CODE				    CODE			       CODE				  CODIGO			     CODIGO				CODE			     KOODI				CODICE				   KOD
	   124	   -1	   1	      0 	 FIND				    FINDEN			       TROUVE				  ENCONTRAR			     PROCURAR				VIND.ALLES		     ETSI				TROVA				   HITTA
	   125	   -1	   0	      1 	 CELL				    ZELLE			       CELLULE				  CELDA 			     CEL				CEL			     SOLU				CELLA				   CELL
	   126	    1	   1	      0 	 ISERR				    ISTFEHL			       ESTERR				  ESERR 			     EERRO				ISFOUT2 		     ONVIRH				VAL.ERR 			   AeRF
	   127	    1	   1	      0 	 ISTEXT 			    ISTTEXT			       ESTTEXTE 			  ESTEXTO			     ETEXTO				ISTEKST 		     ONTEKSTI				VAL.TESTO			   AeRTEXT
	   128	    1	   1	      0 	 ISNUMBER			    ISTZAHL			       ESTNUM				  ESNUMERO			     ENUM				ISGETAL 		     ONLUKU				VAL.NUMERO			   AeRTAL
	   129	    1	   1	      0 	 ISBLANK			    ISTLEER			       ESTVIDE				  ESBLANCO			     ECEL.VAZIA 			ISLEEG			     ONTYHJAe				 VAL.VUOTO			    AeRTOM
	   130	    1	   0	      0 	 T				    T				       T				  T				     T					T			     T					T				   T
	   131	    1	   0	      0 	 N				    N				       N				  N				     N					N			     N					NUM				   N
	   140	    1	   1	      0 	 DATEVALUE			    DATWERT			       DATEVAL				  FECHANUMERO			     DATA.VALOR 			DATUMWAARDE		     PAeIVAeYSARVO			  DATA.VALORE			     DATUMVAeRDE
	   141	    1	   1	      0 	 TIMEVALUE			    ZEITWERT			       TEMPSVAL 			  HORANUMERO			     VALOR.TEMPO			TIJDWAARDE		     AIKA_ARVO				ORARIO.VALORE			   TIDVAeRDE
	   142	    3	   1	      0 	 SLN				    LIA 			       AMORLIN				  SLN				     DPD				LIN.AFSCHR		     STP				AMMORT.COST			   LINAVSKR
	   143	    4	   1	      0 	 SYD				    DIA 			       SYD				  SYD				     SDA				SYD			     VUOSIPOISTO			AMMORT.ANNUO			   AaRSAVSKR
	   144	   -1	   1	      0 	 DDB				    GDA 			       DDB				  DDB				     BDD				DDB			     DDB				AMMORT				   DEGAVSKR
	   148	   -1	   1	      1 	 INDIRECT			    INDIREKT			       INDIRECT 			  INDIRECTO			     INDIRETO				INDIRECT		     EPAeSUORA				 INDIRETTO			    INDIREKT
	   150	   -1	   1	      0 	 CALL				    AUFRUFEN			       FONCTION.APPELANTE		  LLAMAR			     CHAMAR				ROEPEN			     KUTSU				RICHIAMA			   ANROPA
	   162	    1	   1	      0 	 CLEAN				    SAeUBERN				EPURAGE 			   LIMPIAR			      TIRAR				 WISSEN.CONTROL 	      SIIVOA				 LIBERA 			    STAeDA
	   163	    1	   2	      0 	 MDETERM			    MDET			       DETERMAT 			  MDETERM			     MATRIZ.DETERM			DETERMINANTMAT		     MDETERM				MATR.DETERM			   MDETERM
	   164	    1	   2	      0 	 MINVERSE			    MINV			       INVERSEMAT			  MINVERSA			     MATRIZ.INVERSO			INVERSEMAT		     MKAeAeNTEINEN			  MATR.INVERSA			     MINVERT
	   165	    2	   2	      0 	 MMULT				    MMULT			       PRODUITMAT			  MMULT 			     MATRIZ.MULT			PRODUKTMAT		     MKERRO				MATR.PRODOTTO			   MMULT
	   167	   -1	   1	      0 	 IPMT				    ZINSZ			       INTPER				  PAGOINT			     IPGTO				IBET			     IPMT				INTERESSI			   RBETALNING
	   168	   -1	   1	      0 	 PPMT				    KAPZ			       PRINCPER 			  PAGOPRIN			     PPGTO				PBET			     PPMT				P.RATA				   AMORT
	   169	   -1	   0	      0 	 COUNTA 			    ANZAHL2			       NBVAL				  CONTARA			     CONT.VALORES			AANTALARG		     LASKE.A				CONTA.VALORI			   ANTALV
	   183	   -1	   0	      0 	 PRODUCT			    PRODUKT			       PRODUIT				  PRODUCTO			     MULT				PRODUKT 		     TULO				PRODOTTO			   PRODUKT
	   184	    1	   1	      0 	 FACT				    FAKULTAeT				FACT				   FACT 			      FATORIAL				 FACULTEIT		      KERTOMA				 FATTORIALE			    FAKULTET
	   189	    3	   0	      0 	 DPRODUCT			    DBPRODUKT			       BDPRODUIT			  BDPRODUCTO			     BDMULTIPL				DBPRODUKT		     TTULO				DB.PRODOTTO			   DPRODUKT
	   190	    1	   1	      0 	 ISNONTEXT			    ISTKTEXT			       ESTNONTEXTE			  ESNOTEXTO			     E.NA~O.TEXTO			 ISGEENTEKST		      ONEI_TEKSTI			 VAL.NON.TESTO			    AeREJTEXT
	   193	   -1	   0	      0 	 STDEVP 			    STABWN			       ECARTYPEP			  DESVESTP			     DESVPADP				STDEVP			     KESKIHAJONTAP			DEV.ST.POP			   STDAVP
	   194	   -1	   0	      0 	 VARP				    VARIANZEN			       VAR.P				  VARP				     VARP				VARP			     VARP				VAR.POP 			   VARIANSP
	   195	    3	   0	      0 	 DSTDEVP			    DBSTDABWN			       BDECARTYPEP			  BDDESVESTP			     BDDESVPA				DBSTDEVP		     TKESKIHAJONTAP			DB.DEV.ST.POP			   DSTDAVP
	   196	    3	   0	      0 	 DVARP				    DBVARIANZEN 		       BDVARP				  BDVARP			     BDVARP				DBVARP			     TVARIANSSIP			DB.VAR.POP			   DVARIANSP
	   197	   -1	   1	      0 	 TRUNC				    KUeRZEN				TRONQUE 			   TRUNCAR			      TRUNCAR				 GEHEEL 		      KATKAISE				 TRONCA 			    AVKORTA
	   198	    1	   1	      0 	 ISLOGICAL			    ISTLOG			       ESTLOGIQUE			  ESLOGICO			     ELOGICO				ISLOGISCH		     ONTOTUUS				VAL.LOGICO			   AeRLOGISK
	   199	    3	   0	      0 	 DCOUNTA			    DBANZAHL2			       BDNBVAL				  BDCONTARA			     BDCONTARA				DBAANTALC		     TLASKEA				DB.CONTA.VALORI 		   DANTALV
	   212	    2	   1	      0 	 ROUNDUP			    AUFRUNDEN			       ARRONDI.SUP			  REDONDEAR.MAS 		     ARREDONDAR.PARA.CIMA		AFRONDEN.NAAR.BOVEN	     PYOeRISTAe.DES.YLOeS		   ARROTONDA.PER.ECC		      AVRUNDA.UPPAaT
	   213	    2	   1	      0 	 ROUNDDOWN			    ABRUNDEN			       ARRONDI.INF			  REDONDEAR.MENOS		     ARREDONDAR.PARA.BAIXO		AFRONDEN.NAAR.BENEDEN	     PYOeRISTAe.DES.ALAS		  ARROTONDA.PER.DIF		     AVRUNDA.NEDAaT
	   216	   -1	   0	      0 	 RANK				    RANG			       RANG				  JERARQUIA			     ORDEM				RANG			     ARVON.MUKAAN			RANGO				   RANG
	   219	   -1	   1	      0 	 ADDRESS			    ADRESSE			       ADRESSE				  DIRECCION			     ENDERECO				ADRES			     OSOITE				INDIRIZZO			   ADRESS
	   220	   -1	   1	      0 	 DAYS360			    TAGE360			       JOURS360 			  DIAS360			     DIAS360				DAGEN360		     PAeIVAeT360			  GIORNO360			     DAGAR360
	   221	    0	   1	      1 	 TODAY				    HEUTE			       AUJOURDHUI			  HOY				     HOJE				VANDAAG 		     TAeMAe.PAeIVAe			    OGGI			       IDAG
	   222	   -1	   1	      0 	 VDB				    VDB 			       VDB				  DVS				     BDV				VDB			     VDB				AMMORT.VAR			   VDEGRAVSKR
	   227	   -1	   0	      0 	 MEDIAN 			    MEDIAN			       MEDIANE				  MEDIANA			     MED				MEDIAAN 		     MEDIAANI				MEDIANA 			   MEDIAN
	   228	   -1	   2	      0 	 SUMPRODUCT			    SUMMENPRODUKT		       SOMMEPROD			  SUMAPRODUCTO			     SOMARPRODUTO			SOMPRODUKT		     TULOJEN.SUMMA			MATR.SOMMA.PRODOTTO		   PRODUKTSUMMA
	   229	    1	   1	      0 	 SINH				    SINHYP			       SINH				  SENOH 			     SENH				SINH			     SINH				SENH				   SINH
	   230	    1	   1	      0 	 COSH				    COSHYP			       COSH				  COSH				     COSH				COSH			     COSH				COSH				   COSH
	   231	    1	   1	      0 	 TANH				    TANHYP			       TANH				  TANH				     TANH				TANH			     TANH				TANH				   TANH
	   232	    1	   1	      0 	 ASINH				    ARCSINHYP			       ASINH				  ASENOH			     ASENH				BOOGSINH		     ASINH				ARCSENH 			   ARCSINH
	   233	    1	   1	      0 	 ACOSH				    ARCCOSHYP			       ACOSH				  ACOSH 			     ACOSH				BOOGCOSH		     ACOSH				ARCCOSH 			   ARCCOSH
	   234	    1	   1	      0 	 ATANH				    ARCTANHYP			       ATANH				  ATANH 			     ATANH				BOOGTANH		     ATANH				ARCTANH 			   ARCTANH
	   235	    3	   0	      0 	 DGET				    DBAUSZUG			       BDLIRE				  BDEXTRAER			     BDEXTRAIR				DBLEZEN 		     TNOUDA				DB.VALORI			   DHAeMTA
	   244	    1	   1	      1 	 INFO				    INFO			       INFO				  INFO				     INFORMACA~O			 INFO			      KUVAUS				 AMBIENTE.INFO			    INFO
	   247	   -1	   1	      0 	 DB				    GDA2			       DB				  DB				     BD 				DB			     DB 				AMMORT.FISSO			   DB
	   252	    2	   0	      0 	 FREQUENCY			    HAeUFIGKEIT 			FREQUENCE			   FRECUENCIA			      FREQUeENCIA			  INTERVAL		       TAAJUUS				  FREQUENZA			     FREKVENS
	   261	    1	   1	      0 	 ERROR.TYPE			    FEHLER.TYP			       TYPE.ERREUR			  TIPO.DE.ERROR 		     TIPO.ERRO				TYPE.FOUT		     VIRHEEN.LAJI			ERRORE.TIPO			   FEL.TYP
	   267	   -1	   1	      0 	 REGISTER.ID			    REGISTER.KENNUMMER		       REGISTRE.NUMERO			  ID.REGISTRO			     IDENT.REGISTRO			REGISTRATIE.ID		     REKISTERI.TUNNUS			IDENTIFICATORE.REGISTRO 	   REGISTRERA.ID
	   269	   -1	   0	      0 	 AVEDEV 			    MITTELABW			       ECART.MOYEN			  DESVPROM			     DESV.MEDIO 			GEM.DEVIATIE		     KESKIPOIKKEAMA			MEDIA.DEV			   MEDELAVV
	   270	   -1	   1	      0 	 BETADIST			    BETAVERT			       LOI.BETA 			  DISTR.BETA			     DISTBETA				BETA.VERD		     BEETAJAKAUMA			DISTRIB.BETA			   BETAFOeRD
	   271	    1	   1	      0 	 GAMMALN			    GAMMALN			       LNGAMMA				  GAMMA.LN			     LNGAMA				GAMMA.LN		     GAMMALN				LN.GAMMA			   GAMMALN
	   272	   -1	   1	      0 	 BETAINV			    BETAINV			       BETA.INVERSE			  DISTR.BETA.INV		     BETA.ACUM.INV			BETA.INV		     BEETAJAKAUMA.KAeAeNT		  INV.BETA			     BETAINV
	   273	    4	   1	      0 	 BINOMDIST			    BINOMVERT			       LOI.BINOMIALE			  DISTR.BINOM			     DISTRBINOM 			BINOMIALE.VERD		     BINOMIJAKAUMA			DISTRIB.BINOM			   BINOMFOeRD
	   274	    2	   1	      0 	 CHIDIST			    CHIVERT			       LOI.KHIDEUX			  DISTR.CHI			     DIST.QUI				CHI.KWADRAAT		     CHIJAKAUMA 			DISTRIB.CHI			   CHI2FOeRD
	   275	    2	   1	      0 	 CHIINV 			    CHIINV			       KHIDEUX.INVERSE			  PRUEBA.CHI.INV		     INV.QUI				CHI.KWADRAAT.INV	     CHIJAKAUMA.KAeAeNT 		  INV.CHI			     CHI2INV
	   276	    2	   1	      0 	 COMBIN 			    KOMBINATIONEN		       COMBIN				  COMBINAT			     COMBIN				COMBINATIES		     KOMBINAATIO			COMBINAZIONE			   KOMBIN
	   277	    3	   1	      0 	 CONFIDENCE			    KONFIDENZ			       INTERVALLE.CONFIANCE		  INTERVALO.CONFIANZA		     INT.CONFIANCA			BETROUWBAARHEID 	     LUOTTAMUSVAeLI			 CONFIDENZA			    KONFIDENS
	   278	    3	   1	      0 	 CRITBINOM			    KRITBINOM			       CRITERE.LOI.BINOMIALE		  BINOM.CRIT			     CRIT.BINOM 			CRIT.BINOM		     BINOMIJAKAUMA.KRIT 		CRIT.BINOM			   KRITBINOM
	   279	    1	   1	      0 	 EVEN				    GERADE			       PAIR				  REDONDEA.PAR			     PAR				EVEN			     PARILLINEN 			PARI				   JAeMN
	   280	    3	   1	      0 	 EXPONDIST			    EXPONVERT			       LOI.EXPONENTIELLE		  DISTR.EXP			     DISTEXPON				EXPON.VERD		     EKSPONENTIAALIJAKAUMA		DISTRIB.EXP			   EXPONFOeRD
	   281	    3	   1	      0 	 FDIST				    FVERT			       LOI.F				  DISTR.F			     DISTF				F.VERDELING		     FJAKAUMA				DISTRIB.F			   FFOeRD
	   282	    3	   1	      0 	 FINV				    FINV			       INVERSE.LOI.F			  DISTR.F.INV			     INVF				F.INVERSE		     FJAKAUMA.KAeAeNT			  INV.F 			     FINV
	   283	    1	   1	      0 	 FISHER 			    FISHER			       FISHER				  FISHER			     FISHER				FISHER			     FISHER				FISHER				   FISHER
	   284	    1	   1	      0 	 FISHERINV			    FISHERINV			       FISHER.INVERSE			  PRUEBA.FISHER.INV		     FISHERINV				FISHER.INV		     FISHER.KAeAeNT			  INV.FISHER			     FISHERINV
	   285	    2	   1	      0 	 FLOOR				    UNTERGRENZE 		       PLANCHER 			  MULTIPLO.INFERIOR		     ARREDMULTB 			AFRONDEN.BENEDEN	     PYOeRISTAe.KERR.ALAS		  ARROTONDA.DIFETTO		     RUNDA.NER
	   286	    4	   1	      0 	 GAMMADIST			    GAMMAVERT			       LOI.GAMMA			  DISTR.GAMMA			     DISTGAMA				GAMMA.VERD		     GAMMAJAKAUMA			DISTRIB.GAMMA			   GAMMAFOeRD
	   287	    3	   1	      0 	 GAMMAINV			    GAMMAINV			       LOI.GAMMA.INVERSE		  DISTR.GAMMA.INV		     INVGAMA				GAMMA.INV		     GAMMAJAKAUMA.KAeAeNT		  INV.GAMMA			     GAMMAINV
	   288	    2	   1	      0 	 CEILING			    OBERGRENZE			       PLAFOND				  MULTIPLO.SUPERIOR		     TETO				AFRONDEN.BOVEN		     PYOeRISTAe.KERR.YLOeS		   ARROTONDA.ECCESSO		      RUNDA.UPP
	   289	    4	   1	      0 	 HYPGEOMDIST			    HYPGEOMVERT 		       LOI.HYPERGEOMETRIQUE		  DISTR.HIPERGEOM		     DIST.HIPERGEOM			HYPERGEO.VERD		     HYPERGEOM.JAKAUMA			DISTRIB.IPERGEOM		   HYPGEOMFOeRD
	   290	    3	   1	      0 	 LOGNORMDIST			    LOGNORMVERT 		       LOI.LOGNORMALE			  DISTR.LOG.NORM		     DIST.LOGNORMAL			LOG.NORM.VERD		     LOGNORM.JAKAUMA			DISTRIB.LOGNORM 		   LOGNORMFOeRD
	   291	    3	   1	      0 	 LOGINV 			    LOGINV			       LOI.LOGNORMALE.INVERSE		  DISTR.LOG.INV 		     INVLOG				LOG.NORM.INV		     LOGNORM.JAKAUMA.KAeAeNT		  INV.LOGNORM			     LOGINV
	   292	    3	   1	      0 	 NEGBINOMDIST			    NEGBINOMVERT		       LOI.BINOMIALE.NEG		  NEGBINOMDIST			     DIST.BIN.NEG			NEG.BINOM.VERD		     BINOMIJAKAUMA.NEG			DISTRIB.BINOM.NEG		   NEGBINOMFOeRD
	   293	    4	   1	      0 	 NORMDIST			    NORMVERT			       LOI.NORMALE			  DISTR.NORM			     DIST.NORM				NORM.VERD		     NORM.JAKAUMA			DISTRIB.NORM			   NORMFOeRD
	   294	    1	   1	      0 	 NORMSDIST			    STANDNORMVERT		       LOI.NORMALE.STANDARD		  DISTR.NORM.ESTAND		     DIST.NORMP 			STAND.NORM.VERD 	     NORM.JAKAUMA.NORMIT		DISTRIB.NORM.ST 		   NORMSFOeRD
	   295	    3	   1	      0 	 NORMINV			    NORMINV			       LOI.NORMALE.INVERSE		  DISTR.NORM.INV		     INV.NORM				NORM.INV		     NORM.JAKAUMA.KAeAeNT		  INV.NORM			     NORMINV
	   296	    1	   1	      0 	 NORMSINV			    STANDNORMINV		       LOI.NORMALE.STANDARD.INVERSE	  DISTR.NORM.ESTAND.INV 	     INV.NORMP				STAND.NORM.INV		     NORM.JAKAUMA.NORMIT.KAeAeNT	  INV.NORM.ST			     NORMSINV
	   297	    3	   1	      0 	 STANDARDIZE			    STANDARDISIERUNG		       CENTREE.REDUITE			  NORMALIZACION 		     PADRONIZAR 			NORMALISEREN		     NORMITA				NORMALIZZA			   STANDARDISERA
	   298	    1	   1	      0 	 ODD				    UNGERADE			       IMPAIR				  REDONDEA.IMPAR		     IMPAR				ONEVEN			     PARITON				DISPARI 			   UDDA
	   299	    2	   1	      0 	 PERMUT 			    VARIATIONEN 		       PERMUTATION			  PERMUTACIONES 		     PERMUT				PERMUTATIES		     PERMUTAATIO			PERMUTAZIONE			   PERMUT
	   300	    3	   1	      0 	 POISSON			    POISSON			       LOI.POISSON			  POISSON			     POISSON				POISSON 		     POISSON				POISSON 			   POISSON
	   301	    3	   1	      0 	 TDIST				    TVERT			       LOI.STUDENT			  DISTR.T			     DISTT				T.VERD			     TJAKAUMA				DISTRIB.T			   TFOeRD
	   302	    4	   1	      0 	 WEIBULL			    WEIBULL			       LOI.WEIBULL			  DIST.WEIBULL			     WEIBULL				WEIBULL 		     WEIBULL				WEIBULL 			   WEIBULL
	   303	    2	   2	      0 	 SUMXMY2			    SUMMEXMY2			       SOMME.XMY2			  SUMAXMENOSY2			     SOMAXMY2				SOM.XMINY.2		     EROTUSTEN.NELIOeSUMMA		 SOMMA.Q.DIFF			    SUMMAXMY2
	   304	    2	   2	      0 	 SUMX2MY2			    SUMMEX2MY2			       SOMME.X2MY2			  SUMAX2MENOSY2 		     SOMAX2DY2				SOM.X2MINY2		     NELIOeSUMMIEN.EROTUS		 SOMMA.DIFF.Q			    SUMMAX2MY2
	   305	    2	   2	      0 	 SUMX2PY2			    SUMMEX2PY2			       SOMME.X2PY2			  SUMAX2MASY2			     SOMAX2SY2				SOM.X2PLUSY2		     NELIOeSUMMIEN.SUMMA		 SOMMA.SOMMA.Q			    SUMMAX2PY2
	   306	    2	   2	      0 	 CHITEST			    CHITEST			       TEST.KHIDEUX			  PRUEBA.CHI			     TESTE.QUI				CHI.TOETS		     CHITESTI				TEST.CHI			   CHI2TEST
	   307	    2	   2	      0 	 CORREL 			    KORREL			       COEFFICIENT.CORRELATION		  COEF.DE.CORREL		     CORREL				CORRELATIE		     KORRELAATIO			CORRELAZIONE			   KORREL
	   308	    2	   2	      0 	 COVAR				    KOVAR			       COVARIANCE			  COVAR 			     COVAR				COVARIANTIE		     KOVARIANSSI			COVARIANZA			   KOVAR
	   309	    3	   2	      0 	 FORECAST			    SCHAeTZER				PREVISION			   PRONOSTICO			      PREVISA~O 			  VOORSPELLEN		       ENNUSTE				  PREVISIONE			     PREDIKTION
	   310	    2	   2	      0 	 FTEST				    FTEST			       TEST.F				  PRUEBA.F			     TESTEF				F.TOETS 		     FTESTI				TEST.F				   FTEST
	   311	    2	   2	      0 	 INTERCEPT			    ACHSENABSCHNITT		       ORDONNEE.ORIGINE 		  INTERSECCION			     INTERCEPCA~O			 SNIJPUNT		      LEIKKAUSPISTE			 INTERCETTA			    SKAeRNINGSPUNKT
	   312	    2	   2	      0 	 PEARSON			    PEARSON			       PEARSON				  PEARSON			     PEARSON				PEARSON 		     PEARSON				PEARSON 			   PEARSON
	   313	    2	   2	      0 	 RSQ				    BESTIMMTHEITSMASS		       COEFFICIENT.DETERMINATION	  COEFICIENTE.R2		     RQUAD				R.KWADRAAT		     PEARSON.NELIOe			 RQ				    RKV
	   314	    2	   2	      0 	 STEYX				    STFEHLERYX			       ERREUR.TYPE.XY			  ERROR.TIPICO.XY		     EPADYX				STAND.FOUT.YX		     KESKIVIRHE 			ERR.STD.YX			   STDFELYX
	   315	    2	   2	      0 	 SLOPE				    STEIGUNG			       PENTE				  PENDIENTE			     INCLINACA~O			 RICHTING		      KULMAKERROIN			 PENDENZA			    LUTNING
	   316	    4	   2	      0 	 TTEST				    TTEST			       TEST.STUDENT			  PRUEBA.T			     TESTET				T.TOETS 		     TTESTI				TEST.T				   TTEST
	   317	   -1	   2	      0 	 PROB				    WAHRSCHBEREICH		       PROBABILITE			  PROBABILIDAD			     PROB				KANS			     TODENNAeKOeISYYS			  PROBABILITA			     SANNOLIKHET
	   318	   -1	   0	      0 	 DEVSQ				    SUMQUADABW			       SOMME.CARRES.ECARTS		  DESVIA2			     DESVQ				DEV.KWAD		     OIKAISTU.NELIOeSUMMA		 DEV.Q				    KVADAVV
	   319	   -1	   0	      0 	 GEOMEAN			    GEOMITTEL			       MOYENNE.GEOMETRIQUE		  MEDIA.GEOM			     MEDIA.GEOMETRICA			MEETK.GEM		     KESKIARVO.GEOM			MEDIA.GEOMETRICA		   GEOMEDEL
	   320	   -1	   0	      0 	 HARMEAN			    HARMITTEL			       MOYENNE.HARMONIQUE		  MEDIA.ARMO			     MEDIA.HARMONICA			HARM.GEM		     KESKIARVO.HARM			MEDIA.ARMONICA			   HARMMEDEL
	   321	   -1	   0	      0 	 SUMSQ				    QUADRATESUMME		       SOMME.CARRES			  SUMA.CUADRADOS		     SOMAQUAD				KWADRATENSOM		     NELIOeSUMMA			 SOMMA.Q			    KVADRATSUMMA
	   322	   -1	   0	      0 	 KURT				    KURT			       KURTOSIS 			  CURTOSIS			     CURT				KURTOSIS		     KURT				CURTOSI 			   TOPPIGHET
	   323	   -1	   0	      0 	 SKEW				    SCHIEFE			       COEFFICIENT.ASYMETRIE		  COEFICIENTE.ASIMETRIA 	     DISTORCA~O 			 SCHEEFHEID		      JAKAUMAN.VINOUS			 ASIMMETRIA			    SNEDHET
	   324	   -1	   0	      0 	 ZTEST				    GTEST			       TEST.Z				  PRUEBA.Z			     TESTEZ				Z.TOETS 		     ZTESTI				TEST.Z				   ZTEST
	   325	    2	   0	      0 	 LARGE				    KGROeSSTE				GRANDE.VALEUR			   K.ESIMO.MAYOR		      MAIOR				 GROOTSTE		      SUURI				 GRANDE 			    STOeRSTA
	   326	    2	   0	      0 	 SMALL				    KKLEINSTE			       PETITE.VALEUR			  K.ESIMO.MENOR 		     MENOR				KLEINSTE		     PIENI				PICCOLO 			   MINSTA
	   327	    2	   0	      0 	 QUARTILE			    QUARTILE			       QUARTILE 			  CUARTIL			     QUARTIL				KWARTIEL		     NELJAeNNES 			 QUARTILE			    KVARTIL
	   328	    2	   0	      0 	 PERCENTILE			    QUANTIL			       CENTILE				  PERCENTIL			     PERCENTIL				PERCENTIEL		     PROSENTTIPISTE			PERCENTILE			   PERCENTIL
	   329	   -1	   0	      0 	 PERCENTRANK			    QUANTILSRANG		       RANG.POURCENTAGE 		  RANGO.PERCENTIL		     ORDEM.PORCENTUAL			PERCENT.RANG		     PROSENTTIJAeRJESTYS		 PERCENT.RANGO			    PROCENTRANG
	   330	   -1	   2	      0 	 MODE				    MODALWERT			       MODE				  MODA				     MODO				MODUS			     MOODI				MODA				   TYPVAeRDE
	   331	    2	   0	      0 	 TRIMMEAN			    GESTUTZTMITTEL		       MOYENNE.REDUITE			  MEDIA.ACOTADA 		     MEDIA.INTERNA			GETRIMD.GEM		     KESKIARVO.TASATTU			MEDIA.TRONCATA			   TRIMMEDEL
	   332	    2	   1	      0 	 TINV				    TINV			       LOI.STUDENT.INVERSE		  DISTR.T.INV			     INVT				T.INV			     TJAKAUMA.KAeAeNT			  INV.T 			     TINV
	   336	   -1	   1	      0 	 CONCATENATE			    VERKETTEN			       CONCATENER			  CONCATENAR			     CONCATENAR 			TEKST.SAMENVOEGEN	     KETJUTA				CONCATENA			   SAMMANFOGA
	   337	    2	   1	      0 	 POWER				    POTENZ			       PUISSANCE			  POTENCIA			     POTENCIA				MACHT			     POTENSSI				POTENZA 			   UPPHOeJT.TILL
	   342	    1	   1	      0 	 RADIANS			    RADIANT			       RADIANS				  RADIANES			     RADIANOS				RADIALEN		     RADIAANIT				RADIANTI			   RADIANER
	   343	    1	   1	      0 	 DEGREES			    GRAD			       DEGRES				  GRADOS			     GRAUS				GRADEN			     ASTEET				GRADI				   GRADER
	   344	   -1	   0	      0 	 SUBTOTAL			    TEILERGEBNIS		       SOUS.TOTAL			  SUBTOTALES			     SUBTOTAL				SUBTOTAAL		     VAeLISUMMA 			 SUBTOTALE			    DELSUMMA
	   345	   -1	   0	      0 	 SUMIF				    SUMMEWENN			       SOMME.SI 			  SUMAR.SI			     SOMASE				SOM.ALS 		     SUMMA.JOS				SOMMA.SE			   SUMMA.OM
	   346	    2	   0	      0 	 COUNTIF			    ZAeHLENWENN 			NB.SI				   CONTAR.SI			      CONT.SE				 AANTAL.ALS		      LASKE.JOS 			 CONTA.SE			    ANTAL.OM
	   347	    1	   0	      0 	 COUNTBLANK			    ANZAHLLEEREZELLEN		       NB.VIDE				  CONTAR.BLANCO 		     CONTAR.VAZIO			AANTAL.LEGE.CELLEN	     LASKE.TYHJAeT			 CONTA.VUOTE			    ANTAL.TOMMA
	   354	   -1	   1	      0 	 ROMAN				    ROeMISCH				ROMAIN				   NUMERO.ROMANO		      ROMANO				 ROMEINS		      ROMAN				 ROMANO 			    ROMERSK

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/function_locale.pl>

   Example: writeA1.pl
       This is an example of how to extend the Spreadsheet::WriteExcel module.

       Code is appended to the Spreadsheet::WriteExcel::Worksheet module by reusing the package name. The new code provides a write() method that
       allows you to use Excels A1 style cell references.  This is not particularly useful but it serves as an example of how the module can be
       extended without modifying the code directly.

	   #!/usr/bin/perl -w

	   ###############################################################################
	   #
	   # This is an example of how to extend the Spreadsheet::WriteExcel module.
	   #
	   # Code is appended to the Spreadsheet::WriteExcel::Worksheet module by reusing
	   # the package name. The new code provides a write() method that allows you to
	   # use Excels A1 style cell references.  This is not particularly useful but it
	   # serves as an example of how the module can be extended without modifying the
	   # code directly.
	   #
	   # reverse('X'), March 2001, John McNamara, jmcnamara@cpan.org
	   #

	   use strict;
	   use Spreadsheet::WriteExcel;

	   # Create a new workbook called simple.xls and add a worksheet
	   my $workbook  = Spreadsheet::WriteExcel->new("writeA1.xls");
	   my $worksheet = $workbook->add_worksheet();

	   # Write numbers or text
	   $worksheet->write  (0, 0, "Hello");
	   $worksheet->writeA1("A3", "A3"   );
	   $worksheet->writeA1("A5", 1.2345 );

	   ###############################################################################
	   #
	   # The following will be appended to the Spreadsheet::WriteExcel::Worksheet
	   # package.
	   #

	   package Spreadsheet::WriteExcel::Worksheet;

	   ###############################################################################
	   #
	   # writeA1($cell, $token, $format)
	   #
	   # Convert $cell from Excel A1 notation to $row, $col notation and
	   # call write() on $token.
	   #
	   # Returns: return value of called subroutine or -4 for invalid cell
	   # reference.
	   #
	   sub writeA1 {
	       my $self = shift;
	       my $cell = shift;
	       my $col;
	       my $row;

	       if ($cell =~ /([A-z]+)(d+)/) {
		  ($row, $col) = _convertA1($2, $1);
		  $self->write($row, $col, @_);
	       } else {
		   return -4;
	       }
	   }

	   ###############################################################################
	   #
	   # _convertA1($row, $col)
	   #
	   # Convert Excel A1 notation to $row, $col notation. Convert base26 column
	   # string to a number.
	   #
	   sub _convertA1 {
	       my $row	  = $_[0];
	       my $col	  = $_[1]; # String in AA notation

	       my @chars  = split //, $col;
	       my $expn   = 0;
	       $col	  = 0;

	       while (@chars) {
		   my $char = uc(pop(@chars)); # LS char first
		   $col += (ord($char) -ord('A') +1) * (26**$expn);
		   $expn++;
	       }

	       # Convert 1 index to 0 index
	       $row--;
	       $col--;

	       return($row, $col);
	   }

       Download this example: <http://cpansearch.perl.org/src/JMCNAMARA/Spreadsheet-WriteExcel-2.37/examples/writeA1.pl>

AUTHOR

       John McNamara jmcnamara@cpan.org

       Contributed examples contain the original author's name.

COPYRIGHT

       Copyright MM-MMX, John McNamara.

       All Rights Reserved. This module is free software. It may be used, redistributed and/or modified under the same terms as Perl itself.

perl v5.10.1							    2010-02-02				    Spreadsheet::WriteExcel::Examples(3pm)