use Carp;
use List::MoreUtils qw(any);
+use Rose::DB::Object::Helpers qw(as_tree);
use SL::DBUtils;
use SL::DB::MetaSetup::Part;
module => 'IC',
cvars_alias => 1,
);
+use List::Util qw(sum);
__PACKAGE__->meta->add_relationships(
assemblies => {
type => 'one to many',
class => 'SL::DB::Assembly',
+ manager_args => { sort_by => 'position, oid' },
column_map => { id => 'id' },
},
prices => {
makemodels => {
type => 'one to many',
class => 'SL::DB::MakeModel',
+ manager_args => { sort_by => 'sortorder' },
column_map => { id => 'parts_id' },
},
translations => {
class => 'SL::DB::Translation',
column_map => { id => 'parts_id' },
},
+ assortment_items => {
+ type => 'one to many',
+ class => 'SL::DB::AssortmentItem',
+ column_map => { id => 'assortment_id' },
+ },
+ history_entries => {
+ type => 'one to many',
+ class => 'SL::DB::History',
+ column_map => { id => 'trans_id' },
+ query_args => [ what_done => 'part' ],
+ manager_args => { sort_by => 'itime' },
+ },
);
__PACKAGE__->meta->initialize;
return 1;
}
+sub items {
+ my ($self) = @_;
+
+ if ( $self->part_type eq 'assembly' ) {
+ return $self->assemblies;
+ } elsif ( $self->part_type eq 'assortment' ) {
+ return $self->assortment_items;
+ } else {
+ return undef;
+ }
+}
+
+sub items_checksum {
+ my ($self) = @_;
+
+ # for detecting if the items of an (orphaned) assembly or assortment have
+ # changed when saving
+
+ return join(' ', sort map { $_->part->id } @{$self->items});
+};
+
+sub validate {
+ my ($self) = @_;
+
+ my @errors;
+ push @errors, $::locale->text('The partnumber is missing.') if $self->id and !$self->partnumber;
+ push @errors, $::locale->text('The unit is missing.') unless $self->unit;
+ push @errors, $::locale->text('The buchungsgruppe is missing.') unless $self->buchungsgruppen_id or $self->buchungsgruppe;
+
+ unless ( $self->id ) {
+ push @errors, $::locale->text('The partnumber already exists.') if SL::DB::Manager::Part->get_all_count(where => [ partnumber => $self->partnumber ]);
+ };
+
+ if ($self->is_assortment && $self->orphaned && scalar @{$self->assortment_items} == 0) {
+ # when assortment isn't orphaned form doesn't contain any items
+ push @errors, $::locale->text('The assortment doesn\'t have any items.');
+ }
+
+ if ($self->is_assembly && scalar @{$self->assemblies} == 0) {
+ push @errors, $::locale->text('The assembly doesn\'t have any items.');
+ }
+
+ return @errors;
+}
+
sub is_type {
my $self = shift;
my $type = lc(shift || '');
- die 'invalid type' unless $type =~ /^(?:part|service|assembly)$/;
+ die 'invalid type' unless $type =~ /^(?:part|service|assembly|assortment)$/;
return $self->type eq $type ? 1 : 0;
}
-sub is_part { $_[0]->is_type('part') }
-sub is_assembly { $_[0]->is_type('assembly') }
-sub is_service { $_[0]->is_type('service') }
+sub is_part { $_[0]->part_type eq 'part' }
+sub is_assembly { $_[0]->part_type eq 'assembly' }
+sub is_service { $_[0]->part_type eq 'service' }
+sub is_assortment { $_[0]->part_type eq 'assortment' }
sub type {
- my ($self, $type) = @_;
- if (@_ > 1) {
- die 'invalid type' unless $type =~ /^(?:part|service|assembly)$/;
- $self->assembly( $type eq 'assembly' ? 1 : 0);
- $self->inventory_accno_id($type ne 'service' ? 1 : undef);
- }
-
- return 'assembly' if $self->assembly;
- return 'part' if $self->inventory_accno_id;
- return 'service';
+ return $_[0]->part_type;
+ # my ($self, $type) = @_;
+ # if (@_ > 1) {
+ # die 'invalid type' unless $type =~ /^(?:part|service|assembly)$/;
+ # $self->assembly( $type eq 'assembly' ? 1 : 0);
+ # $self->inventory_accno_id($type ne 'service' ? 1 : undef);
+ # }
+
+ # return 'assembly' if $self->assembly;
+ # return 'part' if $self->inventory_accno_id;
+ # return 'service';
}
sub new_part {
my ($class, %params) = @_;
- $class->new(%params, type => 'part');
+ $class->new(%params, part_type => 'part');
}
sub new_assembly {
my ($class, %params) = @_;
- $class->new(%params, type => 'assembly');
+ $class->new(%params, part_type => 'assembly');
}
sub new_service {
my ($class, %params) = @_;
- $class->new(%params, type => 'service');
+ $class->new(%params, part_type => 'service');
}
+sub new_assortment {
+ my ($class, %params) = @_;
+ $class->new(%params, part_type => 'assortment');
+}
+
+sub last_modification {
+ my ($self) = @_;
+ return $self->mtime or $self->itime;
+};
+
sub orphaned {
my ($self) = @_;
die 'not an accessor' if @_ > 1;
+ return 1 unless $self->id;
+
my @relations = qw(
SL::DB::InvoiceItem
SL::DB::OrderItem
+ SL::DB::DeliveryOrderItem
SL::DB::Inventory
+ SL::DB::Assembly
+ SL::DB::AssortmentItem
);
for my $class (@relations) {
my $date = $params{date} || DateTime->today_local;
my $is_sales = !!$params{is_sales};
my $taxzone = $params{ defined($params{taxzone}) ? 'taxzone' : 'taxzone_id' } * 1;
+ my $tk_info = $::request->cache('get_taxkey');
- $self->{__partpriv_taxkey_information} ||= { };
- my $tk_info = $self->{__partpriv_taxkey_information};
-
- $tk_info->{$taxzone} ||= { };
- $tk_info->{$taxzone}->{$is_sales} ||= { };
+ $tk_info->{$self->id} //= {};
+ $tk_info->{$self->id}->{$taxzone} //= { };
+ my $cache = $tk_info->{$self->id}->{$taxzone}->{$is_sales} //= { };
- if (!exists $tk_info->{$taxzone}->{$is_sales}->{$date}) {
- $tk_info->{$taxzone}->{$is_sales}->{$date} =
+ if (!exists $cache->{$date}) {
+ $cache->{$date} =
$self->get_chart(type => $is_sales ? 'income' : 'expense', taxzone => $taxzone)
- ->load
->get_active_taxkey($date);
}
- return $tk_info->{$taxzone}->{$is_sales}->{$date};
+ return $cache->{$date};
}
sub get_chart {
my $type = (any { $_ eq $params{type} } qw(income expense inventory)) ? $params{type} : croak("Invalid 'type' parameter '$params{type}'");
my $taxzone = $params{ defined($params{taxzone}) ? 'taxzone' : 'taxzone_id' } * 1;
- $self->{__partpriv_get_chart_id} ||= { };
- my $charts = $self->{__partpriv_get_chart_id};
+ my $charts = $::request->cache('get_chart_id/by_part_id_and_taxzone')->{$self->id} //= {};
+ my $all_charts = $::request->cache('get_chart_id/by_id');
$charts->{$taxzone} ||= { };
if (!exists $charts->{$taxzone}->{$type}) {
- my $bugru = $self->buchungsgruppe;
- my $chart_id = ($type eq 'inventory') ? ($self->inventory_accno_id ? $bugru->inventory_accno_id : undef)
- : $bugru->call_sub("${type}_accno_id_${taxzone}");
-
- $charts->{$taxzone}->{$type} = $chart_id ? SL::DB::Chart->new(id => $chart_id)->load : undef;
+ require SL::DB::Buchungsgruppe;
+ my $bugru = SL::DB::Buchungsgruppe->load_cached($self->buchungsgruppen_id);
+ my $chart_id = ($type eq 'inventory') ? ($self->is_part ? $bugru->inventory_accno_id : undef)
+ : $bugru->call_sub("${type}_accno_id", $taxzone);
+
+ if ($chart_id) {
+ my $chart = $all_charts->{$chart_id} // SL::DB::Chart->load_cached($chart_id)->load;
+ $all_charts->{$chart_id} = $chart;
+ $charts->{$taxzone}->{$type} = $chart;
+ }
}
return $charts->{$taxzone}->{$type};
sub bin { require SL::DB::Bin; SL::DB::Manager::Bin ->find_by_or_create(id => $_[0]->{bin_id}) }
}
-sub long_description {
+sub displayable_name {
join ' ', grep $_, map $_[0]->$_, qw(partnumber description);
}
+sub clone_and_reset_deep {
+ my ($self) = @_;
+
+ my $clone = $self->clone_and_reset; # resets id and partnumber (primary key and unique constraint)
+ $clone->makemodels( map { $_->clone_and_reset } @{$self->makemodels} ) if @{$self->makemodels};
+ $clone->translations( map { $_->clone_and_reset } @{$self->translations} ) if @{$self->translations};
+
+ if ( $self->is_assortment ) {
+ # use clone rather than reset_and_clone because the unique constraint would also remove parts_id
+ $clone->assortment_items( map { $_->clone } @{$self->assortment_items} );
+ $_->assortment_id(undef) foreach @{ $clone->assortment_items }
+ };
+
+ if ( $self->is_assembly ) {
+ $clone->assemblies( map { $_->clone_and_reset } @{$self->assemblies});
+ };
+
+ if ( $self->prices ) {
+ $clone->prices( map { $_->clone } @{$self->prices}); # pricegroup_id gets reset here because it is part of a unique contraint
+ if ( $clone->prices ) {
+ foreach my $price ( @{$clone->prices} ) {
+ $price->id(undef);
+ $price->parts_id(undef);
+ };
+ };
+ };
+
+ return $clone;
+}
+
+sub item_diffs {
+ my ($self, $comparison_part) = @_;
+
+ die "item_diffs needs a part object" unless ref($comparison_part) eq 'SL::DB::Part';
+ die "part and comparison_part need to be of the same part_type" unless
+ ( $self->part_type eq 'assembly' or $self->part_type eq 'assortment' )
+ and ( $comparison_part->part_type eq 'assembly' or $comparison_part->part_type eq 'assortment' )
+ and $self->part_type eq $comparison_part->part_type;
+
+ # return [], [] if $self->items_checksum eq $comparison_part->items_checksum;
+ my @self_part_ids = map { $_->parts_id } $self->items;
+ my @comparison_part_ids = map { $_->parts_id } $comparison_part->items;
+
+ my %orig = map{ $_ => 1 } @self_part_ids;
+ my %comparison = map{ $_ => 1 } @comparison_part_ids;
+ my (@additions, @removals);
+ @additions = grep { !exists( $orig{$_} ) } @comparison_part_ids if @comparison_part_ids;
+ @removals = grep { !exists( $comparison{$_} ) } @self_part_ids if @self_part_ids;
+
+ return \@additions, \@removals;
+};
+
+sub items_sellprice_sum {
+ my ($self, %params) = @_;
+
+ return unless $self->is_assortment or $self->is_assembly;
+ return unless $self->items;
+
+ if ($self->is_assembly) {
+ return sum map { $_->linetotal_sellprice } @{$self->items};
+ } else {
+ return sum map { $_->linetotal_sellprice(%params) } grep { $_->charge } @{$self->items};
+ }
+}
+
+sub items_lastcost_sum {
+ my ($self) = @_;
+
+ return unless $self->is_assortment or $self->is_assembly;
+ return unless $self->items;
+ sum map { $_->linetotal_lastcost } @{$self->items};
+};
+
+sub assortment_lastcost_sum {
+ my ($self) = @_;
+
+ return unless $self->is_assortment;
+ sum map { $_->linetotal_lastcost } @{$self->assortment_items};
+};
+
1;
__END__
=item Assembly - a collection of both parts and services
+=item Assortment - a collection of items (parts or assemblies)
+
=back
These types are sadly represented by data inside the class and cannot be
migrated into a flag. To work around this, each C<Part> object knows what type
-it currently is. Since the type ist data driven, there ist no explicit setting
+it currently is. Since the type is data driven, there ist no explicit setting
method for it, but you can construct them explicitly with C<new_part>,
-C<new_service>, and C<new_assembly>. A Buchungsgruppe should be supplied in this
+C<new_service>, C<new_assembly> and C<new_assortment>. A Buchungsgruppe should be supplied in this
case, but it will use the default Buchungsgruppe if you don't.
Matching these there are assorted helper methods dealing with types,
=item C<new_assembly %PARAMS>
Will set the appropriate data fields so that the resulting instance will be of
-tthe requested type. Since part of the distinction are accounting targets,
+the requested type. Since accounting targets are part of the distinction,
providing a C<Buchungsgruppe> is recommended. If none is given the constructor
will load a default one and set the accounting targets from it.
C<$params{is_sales}>) or expense (for falsish values of
C<$params{is_sales}>) account for the current part. It uses the part's
associated buchungsgruppe and uses the fields belonging to the tax
-zone given by C<$params{taxzone}> (range 0..3).
+zone given by C<$params{taxzone}>.
The information retrieved by the function is cached.
the three key words C<income>, C<expense> and C<inventory>.
This function uses the part's associated buchungsgruppe and uses the
-fields belonging to the tax zone given by C<$params{taxzone}> (range
-0..3).
+fields belonging to the tax zone given by C<$params{taxzone}>.
The information retrieved by the function is cached.
=item C<orphaned>
-Checks if this articke is used in orders, invoices, delivery orders or
+Checks if this article is used in orders, invoices, delivery orders or
assemblies.
=item C<buchungsgruppe BUCHUNGSGRUPPE>
-Used to set the accounting informations from a L<SL:DB::Buchungsgruppe> object.
+Used to set the accounting information from a L<SL:DB::Buchungsgruppe> object.
Please note, that this is a write only accessor, the original Buchungsgruppe can
not be retrieved from an article once set.
+=item C<assembly_sellprice_sum>
+
+Non-recursive sellprice sum of all the assembly item sellprices.
+
+=item C<assortment_sellprice_sum>
+
+Non-recursive sellprice sum of all the assortment item sellprices.
+
+=item C<assembly_lastcost_sum>
+
+Non-recursive lastcost sum of all the assembly item lastcosts.
+
+=item C<assortment_lastcost_sum>
+
+Non-recursive lastcost sum of all the assortment item lastcosts.
+
=back
=head1 AUTHORS