=pod =head1 NAME DateTimeX::Format::Excel - Microsofty conversion of Excel epochs =begin html perl version Build Status Coverage Status this version CPAN version kwalitee =end html =head1 SYNOPSIS #!/usr/bin/env perl use DateTimeX::Format::Excel; # From an Excel date number my $parser = DateTimeX::Format::Excel->new(); print $parser->parse_datetime( 25569 )->ymd ."\n"; my $datetime = $parser->parse_datetime( 37680 ); print $datetime->ymd() ."\n"; $datetime = $parser->parse_datetime( 40123.625 ); print $datetime->iso8601() ."\n"; # And back to an Excel number from a DateTime object use DateTime; my $dt = DateTime->new( year => 1979, month => 7, day => 16 ); my $daynum = $parser->format_datetime( $dt ); print $daynum ."\n"; my $dt_with_time = DateTime->new( year => 2010, month => 7, day => 23 , hour => 18, minute => 20 ); my $parser_date = $parser->format_datetime( $dt_with_time ); print $parser_date ."\n"; ########################### # SYNOPSIS Screen Output # 01: 1970-01-01 # 02: 2003-02-28 # 03: 2009-11-06T15:00:00 # 04: 29052 # 05: 40382.763888889 ########################### =head1 DESCRIPTION Excel uses a different system for its dates than most Unix programs. This module allows you to convert between the Excel raw format and and L objects, which can then be further converted via any of the other L modules, or just with L's methods. The L module states "we assume what Psion assumed for their Abacus / Sheet program". As a consequence the output does not follow exactly the output of Excel. Especially in the Windows range of 0-60. This module attempts to more faithfully follow actual Microsoft Excel with a few notable exceptions. Excel has a few date quirks. First, it allows two different epochs. One for the Windows world and one for the Apple world. The windows epoch starts in 0-January-1900 and allows for 29-February-1900 (both non real dates). Most of the explanations for the difference between windows implementations and Apple implementations focus on the fact that there was no leap year in 1900 L<(the Gregorian vs Julian calendars) |http://en.wikipedia.org/wiki/Gregorian_calendar> and the Apple version wanted to skip that issue. Both non real dates appear to have been a known issue in the original design of VisiCalc that was carried through Lotus 1-2-3 and into Excel for L. (Spreadsheets were arguably the first personal computer killer app and Excel was a L trying to gain an entry into the market at the time.) The closest microsoft discussion I could find on this issue is L. In any case the apple version starts 1-January-1904. (counting from 0 while also avoiding the leap year issue). In both cases the Windows and Apple version use integers from the epoch start to represent days and the decimal portion to represent a portion of a day. Both Windows and Apple Excel will attempt to convert recognized date strings to an Excel epoch for storage with the exception that any date prior to the epoch start will be stored as a string. (31-December-1899 and earlier for Windows and 31-December-1903 and earlier for Apple). Next, Excel does not allow for a time zone component of each number. Finally, in the Windows version when dealing with epochs that do not have a date component just a time component all values will fall between 0 and 1 which is a non real date (0-January-1900). =head2 Caveat utilitor This explanation is not intended to justify Microsofts decisions with Excel dates just replicate them as faithfully as possible. This module makes the assumption that you already know if your date is a string or a number in Excel and that you will handle string to DateTime conversions elsewhere. see L. Any passed strings will die. (As a failure of a L test) This module also makes several unilateral decisions to deal with corner cases. When a 0 date is requested to be converted to DateTime it will use L to cluck that it received a bad date and then provide a DateTime object dated 1-January-1900 (Excel would provide 0-January-1900). If a value between 0 and 1 is requested to be converted to a DateTime object the module will B cluck and provide an object dated 1-January-1900 with the appropriate time component. All Apple times are provide as 1-January-1904. Any requested numerical conversion for Windows >= 60 and < 61 will cluck and provide a DateTime object dated 1-March-1900 (Excel would provide 29-Febrary-1900). All requests for conversion of negative numbers to DateTime objects will die . If a DateTime object is provided for conversion to the Excel value and it falls earlier than 1-January-1900 for Windows and 1-January-1904 for Apple then the DateTime object itself will be returned. If you accept the output of that L as a scalar, DateTime will stringify itself and give you a text equivalent date. For time zones you can L a time zone with the excel number for conversion to the DateTime object. In reverse, the conversion to Excel Epoch uses the L<-Ejd |https://metacpan.org/pod/DateTime#dt-jd-dt-mjd> method for calculation so the time zone is stripped out. No clone or duration calculations are provided with this module. Finally this is a L based module and does not provide a functional interface. I<(Moose would allow it I just chose not to for design purposes)>. The Types module for this package uses L which can, in the background, use L. While in general this is a good thing you will need to make sure that Type::Tiny::XS is version 0.010 or newer since the older ones didn't support the 'Optional' method. =head2 Attributes Data passed to new when creating an instance (parser). For modification of these attributes see the listed L of the instance. =head3 system_type =over B This attribute identifies whether the translation will be done for Windows Excel => 'win_excel' or Apple Excel => 'apple_excel'. B win_excel (0-January-1900T00:00:00 = 0, range includes 29-February-1900) B win_excel|apple_excel (1-January-1904T00:00:00 = 0) =back =head2 Methods These include methods to adjust attributes as well as providing methods to provide the conversion functionality of the module. =head3 get_system_type =over B This is the way to see whether the conversion is Windows or Apple based BNothing B win_excel|apple_excel =back =head3 set_system_type( $system ) =over B This is the way to set the base epoch for the translator B win_excel|apple_excel (see the L for details) B Nothing =back =head3 parse_datetime( @arg_list ) =over B This is how positive excel numbers are translated to L objects B @arg_list - the order is important! =over B<0. > $the_excel_number_for_translation - must be positive - no strings allowed B<1. > 'time_zone' (the only useful option - other values here will ignore position 2) B<2. > A recognizable time zone string or L object B ( 12345, time_zone => 'America/Los_Angeles' ) =back B A DateTime object set to match the passed values. A floating time zone is default. =back =head3 format_datetime( $date_time ) =over B This is how DateTime objects can be translated to Excel epoch numbers B A L object B An excel epoch number or DateTime object if it is before the relevant epoch start. =back =head2 A note on text dates Dates saved in Excel prior to 1-January-1900 for Windows or 1-January-1904 for Apple are stored as text. I suggest using L. Or use an Excel reader that implements this for you like L (self promotion). Here is one possible way to integrate text and dates in the same field into a consistent DateTime output. (I know it's a bit clunky but it's a place to start) my $system_lookup = { '1900' => 'win_excel', '1904' => 'apple_excel', }; my @args_list = ( system_type => $system_lookup->{$workbook->get_epoch_year} ); my $converter = DateTimeX::Format::Excel->new( @args_list ); my $string_via = sub{ my $str = $_[0]; return DateTime::Format::Flexible->parse_datetime( $str ); }; my $num_via = sub{ my $num = $_[0]; return $converter->parse_datetime( $num ); }; my $date_time_from_value = Type::Coercion->new( type_coercion_map => [ Num, $num_via, Str, $string_via, ], ); my $date_time_type = Type::Tiny->new( name => 'Custom_date_type', constraint => sub{ ref($_) eq 'DateTime' }, coercion => $date_time_from_value, ); my $string_type = Type::Tiny->new( name => 'YYYYMMDD', constraint => sub{ !$_ or ( $_ =~ /^\d{4}\-(\d{2})-(\d{2})$/ and $1 > 0 and $1 < 13 and $2 > 0 and $2 < 32 ) }, coercion => Type::Coercion->new( type_coercion_map =>[ $date_time_type->coercibles, sub{ my $tmp = $date_time_type->coerce( $_ ); $tmp->format_cldr( 'yyyy-MM-dd' ) }, ], ), ); =head1 THANKS Dave Rolsky (L) for kickstarting the DateTime project. Iain Truskett, Dave Rolsky, and Achim Bursian for maintaining L. I used it heavily till I wrote this. Peter (Stig) Edwards and Bobby Metz for contributing to L. =head1 Build/Install from Source B<1.> Download a compressed file with the code B<2.> Extract the code from the compressed file. If you are using tar this should work: tar -zxvf DateTimeX-Format-Excel-v1.xx.tar.gz B<3.> Change (cd) into the extracted directory B<4.> Run the following commands =over (For Windows find what version of make was used to compile your perl) perl -V:make (then for Windows substitute the correct make function (s/make/dmake/g)?) =back >perl Makefile.PL >make >make test >make install # As sudo/root >make clean =head1 SUPPORT =over L =back =head1 TODO =over B<1.> Add an error attribute to load soft failures or warnings to B<2.> Convert Smart::Comments to L debug lines =back =head1 AUTHOR =over =item Jed Lund =item jandrew@cpan.org =back =head1 COPYRIGHT This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. The full text of the license can be found in the LICENSE file included with this module. This software is copyrighted (c) 2014 - 2015 by Jed Lund =head1 DEPENDENCIES =over B<5.010> - (L) L - 0.77 L L L L L L L =back =head1 SEE ALSO =over L L - Turned on with $ENV{ Smart_Comments } =back =cut