package DateTimeX::Easy; use warnings; use strict; use constant DEBUG => 0; =head1 NAME DateTimeX::Easy - Parse a date/time string using the best method available =head1 VERSION Version 0.087 =cut our $VERSION = '0.087'; =head1 SYNOPSIS # Make DateTimeX object for "now": my $dt = DateTimeX::Easy->new("today"); # Same thing: my $dt = DateTimeX::Easy->new("now"); # Uses ::F::Natural's coolness (similar in capability to Date::Manip) my $dt = DateTimeX::Easy->new("last monday"); # ... but in 1969: my $dt = DateTimeX::Easy->new("last monday", year => 1969); # ... at the 100th nanosecond: my $dt = DateTimeX::Easy->new("last monday", year => 1969, nanosecond => 100); # ... in US/Eastern: (This will NOT do a timezone conversion) my $dt = DateTimeX::Easy->new("last monday", year => 1969, nanosecond => 100, timezone => "US/Eastern"); # This WILL do a proper timezone conversion: my $dt = DateTimeX::Easy->new("last monday", year => 1969, nanosecond => 100, timezone => "US/Pacific"); $dt->set_time_zone("US/Eastern"); # Custom DateTimeX ability: my $dt = DateTimeX::Easy->new("last second of last month"); $dt = DateTimeX::Easy->new("last second of first month of last year"); $dt = DateTimeX::Easy->new("last second of first month of 2000"); =head1 DESCRIPTION DateTimeX::Easy makes DateTime object creation quick and easy. It uses a variety of DateTime::Format packages to do the bulk of the parsing, with some custom tweaks to smooth out the rough edges (mainly concerning timezone detection and selection). =head1 PARSING Currently, DateTimeX::Easy will attempt to parse input in the following order: =over =item DateTime - Is the input a DateTime object? =item ICal - Was DT::F::ICal able to parse the input? =item DateParse - Was DT::F::DateParse able to parse the input? A caveat, I actually use a modified version of DateParse in order to avoid DateParse's default timezone selection. =item Natural - Was DT::F::Natural able to parse the input? Since this module barfs pretty loudly on strange input, we use a silent $SIG{__WARN__} to hide errors. =item Flexible - Was DT::F::Flexible able to parse the input? This step also looks at the string to see if there is any timezone information at the end. =item DateManip - Was DT::F::DateManip able to parse the input? DateManip isn't very nice with preserving the input timezone, but it's here as a last resort. =back =head1 "last second of first month of year of 2005" DateTimeX::Easy also provides additional parsing and transformation for input like: "first day of last month" "last day of last month" "last day of this month" "last day of next month" "last second of first month of last year" "ending day of month of 2007-10-02" "last second of first month of year of 2005" "last second of last month of year of 2005" "beginning day of month of 2007-10-02" "last month of year of 2007" It will look at each sequence of " of " and do ->add, ->subtract, and ->truncate operations on the parsed DateTime object Also, It's best to be as explicit as possible; the following will work: "last month of 2007" "last second of last month of 2005" "beginning day of 2007-10-02" This won't, though: "last day of 2007" You'll have to do this instead: "last day of year of 2007" The reason is that the date portion is opaque to the parser. It doesn't know whether it has "2007" or "2007-10" or "now" as the last input. To fix this, you can give a hint to the parser, like " of " (as in "year of 2007" above). WARNING: This feature is still somewhat new, so there may be bugs lurking about. Please forward failing tests/scenarios. =head1 METHODS =head2 DateTimeX::Easy->new( ... ) =head2 DateTimeX::Easy->parse( ... ) =head2 DateTimeX::Easy->parse_date( ... ) =head2 DateTimeX::Easy->parse_datetime( ... ) =head2 DateTimeX::Easy->date( ... ) =head2 DateTimeX::Easy->datetime( ... ) =head2 DateTimeX::Easy->new_date( ... ) =head2 DateTimeX::Easy->new_datetime( ... ) Parse the given date/time specification using ::F::Flexible or ::F::Natural and use the result to create a L object. Returns a L object. You can pass the following in: parse # The string or DateTime object to parse. year # A year to override the result of parsing month # A month to override the result of parsing day # A day to override the result of parsing hour # A hour to override the result of parsing minute # A minute to override the result of parsing second # A second to override the result of parsing truncate # A truncation parameter (e.g. year, day, month, week, etc.) time_zone # - Can be: timezone # * A timezone (e.g. US/Pacific, UTC, etc.) tz # * A DateTime special timezone (e.g. floating, local) # # - If neither "tz", "timezone", nor "time_zone" is set, then it'll use whatever is parsed. # - If no timezone is parsed, then the default is floating. # - If the given timezone is different from the parsed timezone, # then a time conversion will take place (unless "soft_time_zone_conversion" is set). # - Either "time_zone", "timezone", "tz" will work (in that order), with "time_zone" having highest precedence # - See below for examples! soft_time_zone_conversion # Set this flag to 1 if you don't want the time to change when a given timezone is # different from a parsed timezone. For example, "10:00 UTC" soft converted to # PST8PDT would be "10:00 PST8PDT". time_zone_if_floating # The value of this option should be a valid timezone. If this option is set, then a DateTime object # with a floating timezone has it's timezone set to the value. default_time_zone # Same as "time_zone_if_floating" ambiguous # Set this flag to 0 if you want to disallow ambiguous input like: # "last day of 2007" or "first minute of April" # This will require you to specify them as "last day of year of 2007" and "first minute of month of April" # instead. This flag is 1 (false) by default. ... and anything else that you want to pass to the DateTime->new constructor If C is specificied, then DateTime->truncate will be run after object creation. Furthermore, you can simply pass the value for "parse" as the first positional argument of the DateTimeX::Easy call, e.g.: # This: DateTimeX::Easy->new("today", year => 2008, truncate => "hour"); # ... is the same as this: DateTimeX::Easy->new(parse => "today", year => 2008, truncate => "hour"); Timezone processing can be a little complicated. Here are some examples: DateTimeX::Easy->parse("today"); # Will use a floating timezone DateTimeX::Easy->parse("2007-07-01 10:32:10"); # Will ALSO use a floating timezone DateTimeX::Easy->parse("2007-07-01 10:32:10 US/Eastern"); # Will use US/Eastern as a timezone DateTimeX::Easy->parse("2007-07-01 10:32:10"); # Will use the floating timezone DateTimeX::Easy->parse("2007-07-01 10:32:10", time_zone_if_floating => "local"); # Will use the local timezone DateTimeX::Easy->parse("2007-07-01 10:32:10 UTC", time_zone => "US/Pacific"); # Will convert from UTC to US/Pacific my $dt = DateTime->now->set_time_zone("US/Eastern"); DateTimeX::Easy->parse($dt); # Will use US/Eastern as the timezone DateTimeX::Easy->parse($dt, time_zone => "floating"); # Will use a floating timezone DateTimeX::Easy->parse($dt, time_zone => "US/Pacific", soft_time_zone_conversion => 1); # Will use US/Pacific as the timezone with NO conversion # For example, "22:00 US/Eastern" will become "22:00 PST8PDT" DateTimeX::Easy->parse($dt)->set_time_zone("US/Pacific"); # Will use US/Pacific as the timezone WITH conversion # For example, "22:00 US/Eastern" will become "19:00 PST8PDT" DateTimeX::Easy->parse($dt, time_zone => "US/Pacific"); # Will ALSO use US/Pacific as the timezone WITH conversion =head1 EXPORT =head2 parse( ... ) =head2 parse_date( ... ) =head2 parse_datetime( ... ) =head2 date( ... ) =head2 datetime( ... ) =head2 new_date( ... ) =head2 new_datetime( ... ) Same syntax as above. See above for more information. =head1 MOTIVATION Although I really like using DateTime for date/time handling, I was often frustrated by its inability to parse even the simplest of date/time strings. There does exist a wide variety of DateTime::Format::* modules, but they all have different interfaces and different capabilities. Coming from a Date::Manip background, I wanted something that gave me the power of ParseDate while still returning a DateTime object. Most importantly, I wanted explicit control of the timezone setting at every step of the way. DateTimeX::Easy is the result. =head1 THANKS Dave Rolsky and crew for writing L =head1 SEE ALSO L L L L L L L =head1 AUTHOR Robert Krimen, C<< >> =head1 SOURCE You can contribute or fork this project via GitHub: L git clone git://github.com/robertkrimen/datetimex-easy.git DateTimeX-Easy =head1 BUGS Please report any bugs or feature requests to C, or through the web interface at L. I will be notified, and then you'll automatically be notified of progress on your bug as I make changes. =head1 SUPPORT You can find documentation for this module with the perldoc command. perldoc DateTimeX::Easy You can also look for information at: =over 4 =item * RT: CPAN's request tracker L =item * AnnoCPAN: Annotated CPAN documentation L =item * CPAN Ratings L =item * Search CPAN L =back =head1 ACKNOWLEDGEMENTS =head1 COPYRIGHT & LICENSE Copyright 2007 Robert Krimen, all rights reserved. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =cut use base qw/Exporter/; our @EXPORT_OK = qw/datetime parse parse_datetime parse_date new_datetime new_date date/; use DateTime; use DateTime::Format::Natural; use DateTime::Format::Flexible; # use DateTime::Format::DateParse; # Unfortunately, not as useful to use because of that default "local" time zone business. use DateTimeX::Easy::DateParse; # Using this instead, hrm. use Scalar::Util qw/blessed/; use Carp; my $have_ICal; eval { require DateTime::Format::ICal; $have_ICal = 1; }; my $have_DateManip; eval { require DateTime::Format::DateManip; $have_DateManip = 1; }; my $natural_parser = DateTime::Format::Natural->new; my %_truncate_range = qw/ month year day month hour day minute hour second minute nanosecond second /; my %_delta_range = ( month => [qw/years months/], day => [qw/months days/], hour => [qw/days hours/], minute => [qw/hours minutes/], second => [qw/minutes seconds/], ); my %_first_or_last = qw/ first first last last begin first beginning first start first end last ending last /; my @_parser_order = qw/ Flexible DateParse Natural /; unshift @_parser_order, qw/ICal/ if $have_ICal; push @_parser_order, qw/DateManip/ if $have_DateManip; my %_parser_source = ( ICal => sub { return DateTime::Format::ICal->parse_datetime(shift); }, DateParse => sub { return DateTimeX::Easy::DateParse->parse_datetime(shift); }, Natural => sub { local $SIG{__WARN__} = sub {}; # Make sure ::Natural/Date::Calc stay quiet... don't really like this, oh well... my $dt = $natural_parser->parse_datetime(shift); return unless $natural_parser->success; return $dt; }, Flexible => sub { my $parse = shift; my $time_zone; # First, try to extract out any timezone information { ################################################## # 2008-09-16 13:23:57 Eastern Daylight (?:Time)? # ################################################## if ($parse =~ s/\s+(?:(Eastern|Central|Mountain|Pacific)\s+(?:Daylight|Standard)(?:\s+Time)?).*$//) { $time_zone = "US/$1"; } ################################## # 2008-09-16 13:23:57 US/Eastern # ################################## elsif ($parse =~ s/\s+([A-Za-z][A-Za-z0-9\/\._]*)\s*$//) { # Look for a timezone-like string at the end of $parse $time_zone = $1; $parse = "$parse $time_zone" and undef $time_zone if $time_zone && $time_zone =~ m/^[ap]\.?m\.?$/i; # Put back AM/PM if we accidentally slurped it out } ######################################################### # 2008-09-16 13:23:57 Eastern Daylight Time (GMT+05:00) # ######################################################### elsif ($parse =~ s/(?:\s+[A-Z]\w+)*\s+\(?(?:GMT|UTC)?([-+]\d{2}:\d{2})\)?\s*$//) { $time_zone = $1; } # Flexible can't seem to parse (GMT+0:500) # elsif ($parse =~ s/(?:\s+[A-Z]\w+)*(\s+\(GMT[-+]\d{2}:\d{2}\)\s*)$//) { # $parse = "$parse $1"; # } ############################# # 2008-09-16 13:23:57 +0500 # ############################# elsif ($parse =~ s/\s+([-+]\d{3,})\s*$//) { $time_zone = $1; } } return unless my $dt = DateTime::Format::Flexible->build($parse); if ($time_zone) { $dt->set_time_zone("floating"); $dt->set_time_zone($time_zone); } return $dt; }, DateManip => sub { return DateTime::Format::DateManip->parse_datetime(shift); }, ); sub new { shift if $_[0] && $_[0] eq __PACKAGE__; my $parse; $parse = shift if @_ % 2; my %in = @_; $parse = delete $in{parse} if exists $in{parse}; my $truncate = delete $in{truncate}; my $soft_time_zone_conversion = delete $in{soft_time_zone_conversion}; my $time_zone_if_floating = delete $in{default_time_zone}; $time_zone_if_floating = delete $in{time_zone_if_floating} if exists $in{time_zone_if_floating}; my $parser_order = delete $in{parser_order}; my $parser_exclude = delete $in{parser_exclude}; my $ambiguous = 1; $ambiguous = delete $in{ambiguous} if exists $in{ambiguous}; my ($time_zone); $time_zone = delete $in{tz} if exists $in{tz}; $time_zone = delete $in{timezone} if exists $in{timezone}; $time_zone = delete $in{time_zone} if exists $in{time_zone}; # "time_zone" takes precedence over "timezone" my @delta; my $original_parse = $parse; my $parse_dt; if ($parse) { if (blessed $parse && $parse->isa("DateTime")) { # We have a DateTime object as $parse $parse_dt = $parse; } else { if (1) { my $got_ambiguous; my ($last_delta); while ($parse =~ s/^\s*(start|first|last|(?:begin|end)(?:ning)?)\s+(year|month|day|hour|minute|second)\s+of\s+//i) { my $first_or_last = $1; $first_or_last = $_first_or_last{lc $first_or_last}; my $period = $2; $last_delta->{add} = [ "${period}s" => 1 ] if $last_delta; push @delta, $last_delta = my $delta = { period => $period }; if ($first_or_last ne "first") { $delta->{last} = 1; $delta->{subtract} = [ "${period}s" => 1 ]; } else { $delta->{first} = 1; } } my $last_parse = $parse; my $period; if ($parse =~ s/^\s*(start|this|next|first|last|(?:begin|end)(?:ning)?)\s+(year|month|day|hour|minute|second)(?:\s+of\s+)?//) { $period = $2; $last_delta->{add} = [ "${period}s" => 1 ] if $last_delta && $last_delta->{last}; push @delta, { truncate => $period}; $parse = $last_parse unless $parse; } elsif ($parse =~ s/^\s*(year|month|day|hour|minute|second)\s+of\s+//i) { $period = $1; $last_delta->{add} = [ "${period}s" => 1 ] if $last_delta && $last_delta->{last}; push @delta, { truncate => $period }; } elsif (@delta) { $got_ambiguous = 1; $period = $last_delta->{period}; my $truncate = $_truncate_range{$period}; push @delta, my $delta = { truncate => $truncate }; my $delta_range = $_delta_range{$period}; if ($delta_range) { my ($add, $subtract) = @$delta_range; if ($last_delta->{last}) { $last_delta->{add} = [ "${add}" => 1 ]; } } } croak "Can't parse \"$original_parse\" since it's too ambiguous" if $got_ambiguous && ! $ambiguous; } my @parser_order = $parser_order ? (ref $parser_order eq "ARRAY" ? @$parser_order : ($parser_order)) : @_parser_order; my (%parser_exclude); %parser_exclude = map { $_ => 1 } (ref $parser_exclude eq "ARRAY" ? @$parser_exclude : ($parser_exclude)) if $parser_exclude; my %parser_source = %_parser_source; if (DEBUG) { warn "Parse $parse\n"; } # TODO Kinda hackish if ($parse =~ m/^[1-9]\d{3}$/) { # If it's a four digit year... yeah, arbitrary $parse_dt = DateTime->new(year => $parse); } while (! $parse_dt && @parser_order) { my $parser = shift @parser_order; next if $parser_exclude{$parser}; # warn "Try $parser:\n" if DEBUG; my $parser_code = $parser_source{$parser}; eval { $parse_dt = $parser_code->($parse); }; if (DEBUG) { if ($@) { warn "FAIL $parser: $@\n"; } elsif ($parse_dt) { warn "PASS $parser: $parse_dt\n"; } else { warn "FAIL $parser\n"; } } undef $parse_dt if $@; } } return unless $parse_dt; } my %DateTime; $DateTime{time_zone} = "floating"; if ($parse_dt) { $DateTime{$_} = $parse_dt->$_ for qw/year month day hour minute second nanosecond time_zone/; } @DateTime{keys %in} = values %in; return unless my $dt = DateTime->new(%DateTime); if ($time_zone) { if ($soft_time_zone_conversion) { $dt->set_time_zone("floating"); } $dt->set_time_zone($time_zone); } elsif ($time_zone_if_floating && $dt->time_zone->is_floating) { $dt->set_time_zone($time_zone_if_floating); } if ($truncate) { $truncate = $truncate->[1] if ref $truncate eq "ARRAY"; $truncate = (values %$truncate)[0] if ref $truncate eq "HASH"; $dt->truncate(to => $truncate); } elsif (@delta) { if (DEBUG) { require YAML; warn "$original_parse => $parse => $dt"; } for my $delta (reverse @delta) { warn YAML::Dump($delta) if DEBUG; if ($delta->{truncate}) { $dt->truncate(to => $delta->{truncate}); } else { $dt->add(@{ $delta->{add} }) if $delta->{add}; $dt->subtract(@{ $delta->{subtract} }) if $delta->{subtract}; } } } return $dt; } *parse = \&new; *parse_date = \&new; *parse_datetime = \&new; *date = \&new; *datetime = \&new; *new_date = \&new; *new_datetime = \&new; 1; # End of DateTimeX::Easy __END__ # elsif ($beginning_of) { # my $truncate = $_truncate_range{$beginning_of}; # $dt->truncate(to => $truncate); # } # elsif ($end_of) { # my $truncate = $_truncate_range{$end_of}; # my $delta = $_delta_range{$end_of}; # if ($delta) { # my ($add, $subtract) = @$delta; # $dt->truncate(to => $truncate); # for (qw/year month day hour minute second/) { # } # $dt->add($add => 1)->subtract($subtract => 1); # } # } my ($tz, $tz_offset); my %DateTime; if ($parse) { if (blessed $parse && $parse->isa("DateTime")) { $DateTime{$_} = $parse->$_ for qw/year month day hour minute second nanosecond time_zone/; $tz = (delete $DateTime{time_zone})->name; $time_zone = "?" unless $saw_time_zone; } else { return unless ($parse, $tz, $tz_offset) = UnixDate($parse, q/%Y %m %d %H %M %S/, qw/%Z %z/); @DateTime{qw/year month day hour minute second/} = split m/\s+/, $parse; } } if ($time_zone eq "?") { # Use the timezone from parsing if (DateTime::TimeZone->is_valid_name($tz)) { $time_zone = $tz; } else { $time_zone = DateTime::Format::DateManip->get_dt_timezone($tz); $time_zone = $tz_offset if $tz_offset && ! $time_zone; } } elsif (DateTime::TimeZone->is_valid_name($time_zone)) { # User passed in a valid timezone already, we're done } else { # User passed in wonky timezone, let's see if we can match it up my $_time_zone = $time_zone; $time_zone = DateTime::Format::DateManip->get_dt_timezone($time_zone); die "Don't understand time zone ($_time_zone)" unless $time_zone } @DateTime{keys %in} = values %in; $DateTime{time_zone} = $time_zone; return unless my $dt = DateTime->new(%DateTime); if ($parse) { if (blessed $parse && $parse->isa("DateTime")) { # We have a DateTime object as $parse $parse_dt = $parse; $original_tz = $parse->time_zone; $time_zone = $parse->time_zone unless $saw_time_zone; $parse_dt = $parse; } else { # Try ::F::DateParse { eval { $parse_dt = DateTime::Format::DateParse->parse_datetime($parse); }; } # Try ::F::Flexible if ($@ || ! $parse_dt) { eval { my $parse = $parse; my $tz; # ...but first, try to parse out any timezone information! if ($parse =~ s/\s+([A-Za-z][A-Za-z0-9\/\._]*)\s*$//) { # Look for a timezone-like string at the end of $parse $tz = $1; $parse = "$parse $tz" and undef $tz if $tz && $tz =~ m/^[ap]\.?m\.?$/i; # Put back AM/PM if we accidentally slurped it out } elsif ($parse =~ s/\s+([-+]\d+)\s*$//) { $tz = $1; } $parse_dt = DateTime::Format::Flexible->build($parse); if ($tz) { $time_zone = $tz if $time_zone eq "?"; $original_tz = $tz; } }; } # Try ::F::Natural if ($@ || ! $parse_dt) { eval { local $SIG{__WARN__} = sub {}; # Make sure ::Natural/Date::Calc stay quiet... don't really like this, oh well... $parse_dt = $natural_parser->parse_datetime($parse); return unless $natural_parser->success; }; } } } shift if $_[0] && $_[0] eq __PACKAGE__; my $parse; $parse = shift if @_ % 2; my %in = @_; $parse = delete $in{parse} if exists $in{parse}; my $truncate = delete $in{truncate}; my $convert = delete $in{convert}; my ($saw_time_zone, $time_zone); $saw_time_zone = exists $in{timezone} || exists $in{time_zone}; $time_zone = delete $in{timezone} if exists $in{timezone}; $time_zone = delete $in{time_zone} if exists $in{time_zone}; # "time_zone" takes precedence over "timezone" $time_zone = "?" unless defined $time_zone; my ($parse_dt, $original_tz); if ($parse) { if (blessed $parse && $parse->isa("DateTime")) { # We have a DateTime object as $parse $parse_dt = $parse; } else { while (! $parse_dt && @parser_order) { my $parser = shift @parser_order; my $parser_code = $parser{$parser}; eval { $parse_dt = $parser_code->($parse); }; undef $parse_dt if $@; } } } $time_zone = "floating" if ! defined $time_zone || $time_zone eq "?"; my $new_tz = $time_zone; my %DateTime; $DateTime{$_} = $parse_dt->$_ for qw/year month day hour minute second nanosecond/; $DateTime{time_zone} = $new_tz; @DateTime{keys %in} = values %in; return unless my $dt = DateTime->new(%DateTime); if ($convert) { if ($convert eq "1") { } else { $original_tz = $new_tz; $original_tz = "local" if $original_tz eq "floating"; $new_tz = $convert; } $original_tz = "local" unless defined $original_tz; $dt->set_time_zone("floating"); $dt->set_time_zone($original_tz); $dt->set_time_zone($new_tz); } if ($truncate) { $truncate = $truncate->[1] if ref $truncate eq "ARRAY"; $truncate = (values %$truncate)[0] if ref $truncate eq "HASH"; $dt->truncate(to => $truncate); } return $dt;