package Travelynx::Model::Journeys; # Copyright (C) 2020-2023 Birte Kristina Friesel # # SPDX-License-Identifier: AGPL-3.0-or-later use GIS::Distance; use List::MoreUtils qw(after_incl before_incl); use strict; use warnings; use 5.020; use utf8; use DateTime; use JSON; my %visibility_itoa = ( 100 => 'public', 80 => 'travelynx', 60 => 'followers', 30 => 'unlisted', 10 => 'private', ); my %visibility_atoi = ( public => 100, travelynx => 80, followers => 60, unlisted => 30, private => 10, ); my @month_name = ( qw(Januar Februar März April Mai Juni Juli August September Oktober November Dezember) ); sub epoch_to_dt { my ($epoch) = @_; # Bugs (and user errors) may lead to undefined timestamps. Set them to # 1970-01-01 to avoid crashing and show obviously wrong data instead. $epoch //= 0; return DateTime->from_epoch( epoch => $epoch, time_zone => 'Europe/Berlin', locale => 'de-DE', ); } sub min_to_human { my ( $self, $minutes ) = @_; my @ret; if ( $minutes >= 14 * 24 * 60 ) { push( @ret, int( $minutes / ( 7 * 24 * 60 ) ) . ' Wochen' ); } elsif ( $minutes >= 7 * 24 * 60 ) { push( @ret, '1 Woche' ); } $minutes %= 7 * 24 * 60; if ( $minutes >= 2 * 24 * 60 ) { push( @ret, int( $minutes / ( 24 * 60 ) ) . ' Tage' ); } elsif ( $minutes >= 24 * 60 ) { push( @ret, '1 Tag' ); } $minutes %= 24 * 60; if ( $minutes >= 2 * 60 ) { push( @ret, int( $minutes / 60 ) . ' Stunden' ); } elsif ( $minutes >= 60 ) { push( @ret, '1 Stunde' ); } $minutes %= 60; if ( $minutes >= 2 ) { push( @ret, "$minutes Minuten" ); } elsif ($minutes) { push( @ret, '1 Minute' ); } if ( @ret == 0 ) { return '0 Minuten'; } if ( @ret == 1 ) { return $ret[0]; } my $last = pop(@ret); return join( ', ', @ret ) . " und $last"; } sub new { my ( $class, %opt ) = @_; return bless( \%opt, $class ); } sub stats_cache { my ($self) = @_; return $self->{stats_cache}; } # Returns (journey id, error) # Must be called during a transaction. # Must perform a rollback on error. sub add { my ( $self, %opt ) = @_; my $db = $opt{db}; my $uid = $opt{uid}; my $now = DateTime->now( time_zone => 'Europe/Berlin' ); my $dep_station = $self->{stations}->search( $opt{dep_station} ); my $arr_station = $self->{stations}->search( $opt{arr_station} ); if ( not $dep_station ) { return ( undef, 'Unbekannter Startbahnhof' ); } if ( not $arr_station ) { return ( undef, 'Unbekannter Zielbahnhof' ); } my $daily_journey_count = $db->select( 'journeys_str', 'count(*) as count', { user_id => $uid, real_dep_ts => { -between => [ $opt{rt_departure}->clone->subtract( days => 1 )->epoch, $opt{rt_departure}->epoch ], }, } )->hash->{count}; if ( $daily_journey_count >= 100 ) { return ( undef, "In den 24 Stunden vor der angegebenen Abfahrtszeit wurden ${daily_journey_count} weitere Fahrten angetreten. Das kann nicht stimmen." ); } my $route_has_start = 0; my $route_has_stop = 0; for my $station ( @{ $opt{route} || [] } ) { if ( $station eq $dep_station->{name} or $station eq $dep_station->{ds100} ) { $route_has_start = 1; } if ( $station eq $arr_station->{name} or $station eq $arr_station->{ds100} ) { $route_has_stop = 1; } } my @route; if ( not $route_has_start ) { push( @route, [ $dep_station->{name}, $dep_station->{eva}, { lat => $dep_station->{lat}, lon => $dep_station->{lon}, } ] ); } if ( $opt{route} ) { my @unknown_stations; for my $station ( @{ $opt{route} } ) { my $station_info = $self->{stations}->search($station); if ($station_info) { push( @route, [ $station_info->{name}, $station_info->{eva}, { lat => $station_info->{lat}, lon => $station_info->{lon}, } ] ); } else { push( @route, [ $station, undef, {} ] ); push( @unknown_stations, $station ); } } if ( not $opt{lax} ) { if ( @unknown_stations == 1 ) { return ( undef, "Unbekannter Unterwegshalt: $unknown_stations[0]" ); } elsif (@unknown_stations) { return ( undef, 'Unbekannte Unterwegshalte: ' . join( ', ', @unknown_stations ) ); } } } if ( not $route_has_stop ) { push( @route, [ $arr_station->{name}, $arr_station->{eva}, { lat => $arr_station->{lat}, lon => $arr_station->{lon}, } ] ); } my $entry = { user_id => $uid, train_type => $opt{train_type}, train_line => $opt{train_line}, train_no => $opt{train_no}, train_id => 'manual', checkin_station_id => $dep_station->{eva}, checkin_time => $now, sched_departure => $opt{sched_departure}, real_departure => $opt{rt_departure}, checkout_station_id => $arr_station->{eva}, sched_arrival => $opt{sched_arrival}, real_arrival => $opt{rt_arrival}, checkout_time => $now, edited => 0x3fff, cancelled => $opt{cancelled} ? 1 : 0, route => JSON->new->encode( \@route ), backend_id => 1, }; if ( $opt{comment} ) { $entry->{user_data} = JSON->new->encode( { comment => $opt{comment} } ); } my $journey_id = undef; eval { $journey_id = $db->insert( 'journeys', $entry, { returning => 'id' } ) ->hash->{id}; $self->stats_cache->invalidate( ts => $opt{rt_departure}, db => $db, uid => $uid ); }; if ($@) { $self->{log}->error("add_journey($uid): $@"); return ( undef, 'add_journey failed: ' . $@ ); } return ( $journey_id, undef ); } sub add_from_in_transit { my ( $self, %opt ) = @_; my $db = $opt{db}; my $journey = $opt{journey}; delete $journey->{data}; $journey->{edited} = 0; $journey->{checkout_time} = DateTime->now( time_zone => 'Europe/Berlin' ); return $db->insert( 'journeys', $journey, { returning => 'id' } ) ->hash->{id}; } sub update { my ( $self, %opt ) = @_; my $db = $opt{db} // $self->{pg}->db; my $uid = $opt{uid}; my $journey_id = $opt{id}; my $rows; my $journey = $self->get_single( uid => $uid, db => $db, journey_id => $journey_id, with_datetime => 1, ); eval { if ( exists $opt{from_name} ) { my $from_station = $self->{stations}->search( $opt{from_name} ); if ( not $from_station ) { die("Unbekannter Startbahnhof\n"); } $rows = $db->update( 'journeys', { checkin_station_id => $from_station->{eva}, edited => $journey->{edited} | 0x0004, }, { id => $journey_id, } )->rows; } if ( exists $opt{to_name} ) { my $to_station = $self->{stations}->search( $opt{to_name} ); if ( not $to_station ) { die("Unbekannter Zielbahnhof\n"); } $rows = $db->update( 'journeys', { checkout_station_id => $to_station->{eva}, edited => $journey->{edited} | 0x0400, }, { id => $journey_id, } )->rows; } if ( exists $opt{sched_departure} ) { $rows = $db->update( 'journeys', { sched_departure => $opt{sched_departure}, edited => $journey->{edited} | 0x0001, }, { id => $journey_id, } )->rows; } if ( exists $opt{rt_departure} ) { $rows = $db->update( 'journeys', { real_departure => $opt{rt_departure}, edited => $journey->{edited} | 0x0002, }, { id => $journey_id, } )->rows; # stats are partitioned by rt_departure -> both the cache for # the old value (see bottom of this function) and the new value # (here) must be invalidated. $self->stats_cache->invalidate( ts => $opt{rt_departure}, db => $db, uid => $uid, ); } if ( exists $opt{sched_arrival} ) { $rows = $db->update( 'journeys', { sched_arrival => $opt{sched_arrival}, edited => $journey->{edited} | 0x0100, }, { id => $journey_id, } )->rows; } if ( exists $opt{rt_arrival} ) { $rows = $db->update( 'journeys', { real_arrival => $opt{rt_arrival}, edited => $journey->{edited} | 0x0200, }, { id => $journey_id, } )->rows; } if ( exists $opt{route} ) { my @new_route = map { [ $_, undef, {} ] } @{ $opt{route} }; $rows = $db->update( 'journeys', { route => JSON->new->encode( \@new_route ), edited => $journey->{edited} | 0x0010, }, { id => $journey_id, } )->rows; } if ( exists $opt{cancelled} ) { $rows = $db->update( 'journeys', { cancelled => $opt{cancelled}, edited => $journey->{edited} | 0x0020, }, { id => $journey_id, } )->rows; } if ( exists $opt{comment} ) { $journey->{user_data}{comment} = $opt{comment}; $rows = $db->update( 'journeys', { user_data => JSON->new->encode( $journey->{user_data} ), }, { id => $journey_id, } )->rows; } if ( not defined $rows ) { die("Invalid update key\n"); } }; if ($@) { $self->{log}->error("update($journey_id): $@"); return "update($journey_id): $@"; } if ( $rows == 1 ) { $self->stats_cache->invalidate( ts => $journey->{rt_departure}, db => $db, uid => $uid, ); return undef; } return "update($journey_id): did not match any journey part"; } sub delete { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; my $journey_id = $opt{id}; my $checkin_epoch = $opt{checkin}; my $checkout_epoch = $opt{checkout}; my @journeys = $self->get( uid => $uid, journey_id => $journey_id ); if ( @journeys == 0 ) { return 'Journey not found'; } my $journey = $journeys[0]; # Double-check (comparing both ID and action epoch) to make sure we # are really deleting the right journey and the user isn't just # playing around with POST requests. if ( $journey->{id} != $journey_id or $journey->{checkin_ts} != $checkin_epoch or $journey->{checkout_ts} != $checkout_epoch ) { return 'Invalid journey data'; } my $rows; eval { $rows = $db->delete( 'journeys', { user_id => $uid, id => $journey_id, } )->rows; }; if ($@) { $self->{log}->error("Delete($uid, $journey_id): $@"); return 'DELETE failed: ' . $@; } if ( $rows == 1 ) { $self->stats_cache->invalidate( ts => epoch_to_dt( $journey->{rt_dep_ts} ), uid => $uid ); return undef; } return sprintf( 'Deleted %d rows, expected 1', $rows ); } # Used for undo (move journey entry to in_transit) sub pop { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db}; my $journey_id = $opt{journey_id}; my $journey = $db->select( 'journeys', '*', { user_id => $uid, id => $journey_id } )->hash; $db->delete( 'journeys', { user_id => $uid, id => $journey_id } ); return $journey; } sub get { my ( $self, %opt ) = @_; my $uid = $opt{uid}; # If get is called from inside a transaction, db # specifies the database handle performing the transaction. # Otherwise, we grab a fresh one. my $db = $opt{db} // $self->{pg}->db; my @select = ( qw(journey_id is_iris is_hafas backend_name backend_id train_type train_line train_no checkin_ts sched_dep_ts real_dep_ts dep_eva dep_ds100 dep_name dep_lat dep_lon checkout_ts sched_arr_ts real_arr_ts arr_eva arr_ds100 arr_name arr_lat arr_lon cancelled edited route messages user_data visibility effective_visibility) ); my %where = ( user_id => $uid, cancelled => 0 ); my %order = ( order_by => { -desc => 'real_dep_ts', } ); if ( $opt{cancelled} ) { $where{cancelled} = 1; } if ( $opt{limit} ) { $order{limit} = $opt{limit}; } if ( $opt{sched_dep_ts} ) { $where{sched_dep_ts} = $opt{sched_dep_ts}; } if ( $opt{journey_id} ) { $where{journey_id} = $opt{journey_id}; delete $where{cancelled}; } elsif ( $opt{after} and $opt{before} ) { $where{real_dep_ts} = { -between => [ $opt{after}->epoch, $opt{before}->epoch, ] }; } elsif ( $opt{after} ) { $where{real_dep_ts} = { '>=', $opt{after}->epoch }; } elsif ( $opt{before} ) { $where{real_dep_ts} = { '<=', $opt{before}->epoch }; } if ( $opt{with_polyline} ) { push( @select, 'polyline' ); } if ( $opt{min_visibility} ) { if ( $visibility_atoi{ $opt{min_visibility} } ) { $opt{min_visibility} = $visibility_atoi{ $opt{min_visibility} }; } $where{effective_visibility} = { '>=', $opt{min_visibility} }; } my @travels; my $res = $db->select( 'journeys_str', \@select, \%where, \%order ); for my $entry ( $res->expand->hashes->each ) { my $ref = { id => $entry->{journey_id}, is_iris => $entry->{is_iris}, is_hafas => $entry->{is_hafas}, backend_name => $entry->{backend_name}, backend_id => $entry->{backend_id}, type => $entry->{train_type}, line => $entry->{train_line}, no => $entry->{train_no}, from_eva => $entry->{dep_eva}, from_ds100 => $entry->{dep_ds100}, from_name => $entry->{dep_name}, from_latlon => [ $entry->{dep_lat}, $entry->{dep_lon} ], checkin_ts => $entry->{checkin_ts}, sched_dep_ts => $entry->{sched_dep_ts}, rt_dep_ts => $entry->{real_dep_ts}, to_eva => $entry->{arr_eva}, to_ds100 => $entry->{arr_ds100}, to_name => $entry->{arr_name}, to_latlon => [ $entry->{arr_lat}, $entry->{arr_lon} ], checkout_ts => $entry->{checkout_ts}, sched_arr_ts => $entry->{sched_arr_ts}, rt_arr_ts => $entry->{real_arr_ts}, messages => $entry->{messages}, route => $entry->{route}, edited => $entry->{edited}, user_data => $entry->{user_data}, visibility => $entry->{visibility}, effective_visibility => $entry->{effective_visibility}, }; if ( $opt{with_visibility} ) { $ref->{visibility_str} = $ref->{visibility} ? $visibility_itoa{ $ref->{visibility} } : 'default'; $ref->{effective_visibility_str} = $visibility_itoa{ $ref->{effective_visibility} }; } if ( $opt{with_polyline} ) { $ref->{polyline} = $entry->{polyline}; } if ( $opt{with_datetime} ) { $ref->{checkin} = epoch_to_dt( $ref->{checkin_ts} ); $ref->{sched_departure} = epoch_to_dt( $ref->{sched_dep_ts} ); $ref->{rt_departure} = epoch_to_dt( $ref->{rt_dep_ts} ); $ref->{checkout} = epoch_to_dt( $ref->{checkout_ts} ); $ref->{sched_arrival} = epoch_to_dt( $ref->{sched_arr_ts} ); $ref->{rt_arrival} = epoch_to_dt( $ref->{rt_arr_ts} ); for my $stop ( @{ $ref->{route} } ) { for my $k (qw(rt_arr rt_dep sched_arr sched_dep)) { if ( $stop->[2]{$k} ) { $stop->[2]{$k} = epoch_to_dt( $stop->[2]{$k} ); } } } } if ( $opt{verbose} ) { my $rename = $self->{renamed_station}; for my $stop ( @{ $ref->{route} } ) { if ( $stop->[0] =~ m{^Betriebsstelle nicht bekannt (\d+)$} ) { if ( my $s = $self->{stations} ->get_by_eva( $1, backend_id => $ref->{backend_id} ) ) { $stop->[0] = $s->{name}; } } if ( $rename->{ $stop->[0] } ) { $stop->[0] = $rename->{ $stop->[0] }; } } $ref->{cancelled} = $entry->{cancelled}; my @parsed_messages; for my $message ( @{ $ref->{messages} // [] } ) { my ( $ts, $msg ) = @{$message}; push( @parsed_messages, [ epoch_to_dt($ts), $msg ] ); } $ref->{messages} = [ reverse @parsed_messages ]; $ref->{sched_duration} = defined $ref->{sched_arr_ts} ? $ref->{sched_arr_ts} - $ref->{sched_dep_ts} : undef; $ref->{rt_duration} = defined $ref->{rt_arr_ts} ? $ref->{rt_arr_ts} - $ref->{rt_dep_ts} : undef; my ( $km_polyline, $km_route, $km_beeline, $skip ) = $self->get_travel_distance($ref); $ref->{km_route} = $km_polyline || $km_route; $ref->{skip_route} = $km_polyline ? 0 : $skip; $ref->{km_beeline} = $km_beeline; $ref->{skip_beeline} = $skip; my $kmh_divisor = ( $ref->{rt_duration} // $ref->{sched_duration} // 999999 ) / 3600; $ref->{kmh_route} = $kmh_divisor ? $ref->{km_route} / $kmh_divisor : -1; $ref->{kmh_beeline} = $kmh_divisor ? $ref->{km_beeline} / $kmh_divisor : -1; } push( @travels, $ref ); } return @travels; } sub get_single { my ( $self, %opt ) = @_; $opt{cancelled} = 'any'; my @journeys = $self->get(%opt); if ( @journeys == 0 ) { return undef; } return $journeys[0]; } sub get_latest { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; my $latest_successful = $db->select( 'journeys_str', '*', { user_id => $uid, cancelled => 0 }, { order_by => { -desc => 'real_dep_ts' }, limit => 1 } )->expand->hash; if ($latest_successful) { $latest_successful->{visibility_str} = $latest_successful->{visibility} ? $visibility_itoa{ $latest_successful->{visibility} } : 'default'; $latest_successful->{effective_visibility_str} = $visibility_itoa{ $latest_successful->{effective_visibility} }; } my $latest = $db->select( 'journeys_str', '*', { user_id => $uid, }, { order_by => { -desc => 'journey_id' }, limit => 1 } )->expand->hash; if ($latest) { $latest->{visibility_str} = $latest->{visibility} ? $visibility_itoa{ $latest->{visibility} } : 'default'; $latest->{effective_visibility_str} = $visibility_itoa{ $latest->{effective_visibility} }; } return ( $latest_successful, $latest ); } sub get_oldest_ts { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; my $res_h = $db->select( 'journeys_str', ['sched_dep_ts'], { user_id => $uid, }, { limit => 1, order_by => { -asc => 'real_dep_ts', }, } )->hash; if ($res_h) { return epoch_to_dt( $res_h->{sched_dep_ts} ); } return undef; } sub get_latest_checkout_ids { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; my $res_h = $db->select( 'journeys', [ 'checkout_station_id', 'backend_id', ], { user_id => $uid, cancelled => 0 }, { limit => 1, order_by => { -desc => 'real_departure' } } )->hash; if ( not $res_h ) { return; } return $res_h->{checkout_station_id}, $res_h->{backend_id}; } sub get_latest_checkout_stations { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; my $limit = $opt{limit} // 5; my $res = $db->select( 'journeys_str', [ 'arr_name', 'arr_eva', 'train_id', 'backend_id', 'backend_name', 'is_hafas' ], { user_id => $uid, cancelled => 0 }, { limit => $limit, order_by => { -desc => 'journey_id' } } ); if ( not $res ) { return; } my @ret; while ( my $row = $res->hash ) { push( @ret, { name => $row->{arr_name}, eva => $row->{arr_eva}, hafas => $row->{is_hafas} ? $row->{backend_name} : 0, backend_id => $row->{backend_id}, } ); } return @ret; } sub get_nav_years { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; my $res = $db->select( 'journeys', 'distinct extract(year from real_departure) as year', { user_id => $uid }, { order_by => { -asc => 'year' } } ); my @ret; for my $row ( $res->hashes->each ) { push( @ret, [ $row->{year}, $row->{year} ] ); } return @ret; } sub get_years { my ( $self, %opt ) = @_; my @years = $self->get_nav_years(%opt); for my $year (@years) { my $stats = $self->stats_cache->get( uid => $opt{uid}, year => $year, month => 0, ); $year->[2] = $stats // {}; } return @years; } sub get_months_for_year { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; my $year = $opt{year}; my $res = $db->select( 'journeys', 'distinct extract(year from real_departure) as year, extract(month from real_departure) as month', { user_id => $uid }, { order_by => { -asc => 'year' } } ); my @ret; for my $month ( 1 .. 12 ) { push( @ret, [ sprintf( '%d/%02d', $year, $month ), $month_name[ $month - 1 ] ] ); } for my $row ( $res->hashes->each ) { if ( $row->{year} == $year ) { my $stats = $self->stats_cache->get( db => $db, uid => $uid, year => $year, month => $row->{month} ); # undef -> no journeys for this month; empty hash -> no cached stats $ret[ $row->{month} - 1 ][2] = $stats // {}; } } return @ret; } sub get_yyyymm_having_journeys { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; my $res = $db->select( 'journeys', "distinct to_char(real_departure, 'YYYY.MM') as yearmonth", { user_id => $uid }, { order_by => { -asc => 'yearmonth' } } ); my @ret; for my $row ( $res->hashes->each ) { push( @ret, [ split( qr{[.]}, $row->{yearmonth} ) ] ); } return @ret; } sub generate_missing_stats { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; my @journey_months = $self->get_yyyymm_having_journeys( uid => $uid, db => $db ); my @stats_months = $self->stats_cache->get_yyyymm_having_stats( uid => $uid, $db => $db ); my $stats_index = 0; for my $journey_index ( 0 .. $#journey_months ) { if ( $stats_index < @stats_months and $journey_months[$journey_index][0] == $stats_months[$stats_index][0] and $journey_months[$journey_index][1] == $stats_months[$stats_index][1] ) { $stats_index++; } else { my ( $year, $month ) = @{ $journey_months[$journey_index] }; $self->get_stats( uid => $uid, db => $db, year => $year, month => $month, write_only => 1 ); } } } sub get_nav_months { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; my $filter_year = $opt{year}; my $filter_month = $opt{month}; my $selected_index = undef; my $res = $db->select( 'journeys', "distinct to_char(real_departure, 'YYYY.MM') as yearmonth", { user_id => $uid }, { order_by => { -asc => 'yearmonth' } } ); my @months; for my $row ( $res->hashes->each ) { my ( $year, $month ) = split( qr{[.]}, $row->{yearmonth} ); push( @months, [ $year, $month ] ); if ( $year eq $filter_year and $month eq $filter_month ) { $selected_index = $#months; } } # returns (previous entry, current month, next entry). if there is no # previous or next entry, the corresponding field is undef. Previous/next # entry is usually previous/next month, but may also have a distance of # more than one month if there are months without travels my @ret = ( undef, undef, undef ); $ret[1] = [ "${filter_year}/${filter_month}", $month_name[ $filter_month - 1 ] // $filter_month ]; if ( not defined $selected_index ) { return @ret; } if ( $selected_index > 0 and $months[ $selected_index - 1 ] ) { my ( $year, $month ) = @{ $months[ $selected_index - 1 ] }; $ret[0] = [ "${year}/${month}", "${month}.${year}" ]; } if ( $selected_index < $#months ) { my ( $year, $month ) = @{ $months[ $selected_index + 1 ] }; $ret[2] = [ "${year}/${month}", "${month}.${year}" ]; } return @ret; } sub sanity_check { my ( $self, $journey, $lax ) = @_; if ( defined $journey->{sched_duration} and $journey->{sched_duration} <= 0 ) { return 'Die geplante Dauer dieser Fahrt ist ≤ 0. Teleportation und Zeitreisen werden aktuell nicht unterstützt.'; } if ( defined $journey->{rt_duration} and $journey->{rt_duration} <= 0 ) { return 'Die Dauer dieser Fahrt ist ≤ 0. Teleportation und Zeitreisen werden aktuell nicht unterstützt.'; } if ( $journey->{sched_duration} and $journey->{sched_duration} > 60 * 60 * 24 ) { return 'Die Fahrt ist länger als 24 Stunden.'; } if ( $journey->{rt_duration} and $journey->{rt_duration} > 60 * 60 * 24 ) { return 'Die Fahrt ist länger als 24 Stunden.'; } if ( $journey->{kmh_route} > 500 or $journey->{kmh_beeline} > 500 ) { return 'Fahrten mit über 500 km/h? Schön wär\'s.'; } if ( $journey->{route} and @{ $journey->{route} } > 199 ) { my $stop_count = @{ $journey->{route} }; return "Die Fahrt hat $stop_count Unterwegshalte. Also ich weiß ja nicht so recht."; } if ( $journey->{edited} & 0x0010 and not $lax ) { my @unknown_stations = $self->{stations} ->grep_unknown( map { $_->[0] } @{ $journey->{route} } ); if (@unknown_stations) { return 'Unbekannte Station(en): ' . join( ', ', @unknown_stations ); } } return undef; } sub get_travel_distance { my ( $self, $journey ) = @_; my $from = $journey->{from_name}; my $from_eva = $journey->{from_eva}; my $from_latlon = $journey->{from_latlon}; my $to = $journey->{to_name}; my $to_eva = $journey->{to_eva}; my $to_latlon = $journey->{to_latlon}; my $route_ref = $journey->{route}; my $polyline_ref = $journey->{polyline}; if ( not $to ) { $self->{log} ->warn("Journey $journey->{id} has no to_name for EVA $to_eva"); } if ( not $from ) { $self->{log} ->warn("Journey $journey->{id} has no from_name for EVA $from_eva"); } my $distance_polyline = 0; my $distance_intermediate = 0; my $distance_beeline = 0; my $skipped = 0; my $geo = GIS::Distance->new(); my @route = after_incl { $_->[0] eq $from } @{$route_ref}; @route = before_incl { $_->[0] eq $to } @route; if ( @route < 2 ) { # I AM ERROR return ( 0, 0, 0 ); } my @polyline = after_incl { $_->[2] and $_->[2] == $from_eva } @{ $polyline_ref // [] }; @polyline = before_incl { $_->[2] and $_->[2] == $to_eva } @polyline; my $prev_station = shift @polyline; for my $station (@polyline) { $distance_polyline += $geo->distance_metal( $prev_station->[1], $prev_station->[0], $station->[1], $station->[0] ); $prev_station = $station; } if ( not( defined $route[0][2]{lat} and defined $route[0][2]{lon} ) ) { return ( $distance_polyline, 0, 0 ); } $prev_station = shift @route; for my $station (@route) { if ( defined $station->[2]{lat} and defined $station->[2]{lon} ) { $distance_intermediate += $geo->distance_metal( $prev_station->[2]{lat}, $prev_station->[2]{lon}, $station->[2]{lat}, $station->[2]{lon} ); $prev_station = $station; } } $distance_beeline = $geo->distance_metal( @{$from_latlon}, @{$to_latlon} ); return ( $distance_polyline, $distance_intermediate, $distance_beeline, $skipped ); } sub grep_single { my ( $self, @journeys ) = @_; my %num_by_trip; for my $journey (@journeys) { if ( $journey->{from_name} and $journey->{to_name} ) { $num_by_trip{ $journey->{from_name} . '|' . $journey->{to_name} } += 1; } } return grep { $num_by_trip{ $_->{from_name} . '|' . $_->{to_name} } == 1 } @journeys; } sub compute_review { my ( $self, $stats, @journeys ) = @_; my $longest_km; my $longest_t; my $shortest_km; my $shortest_t; my $most_delayed; my $most_delay; my $most_undelay; my $num_cancelled = 0; my $num_fgr = 0; my $num_punctual = 0; my $message_count = 0; my %num_by_message; my %num_by_wrtype; my %num_by_linetype; my %num_by_stop; my %num_by_trip; if ( not $stats or not @journeys or $stats->{num_trains} == 0 ) { return; } my %review; for my $journey (@journeys) { if ( $journey->{cancelled} ) { $num_cancelled += 1; next; } my %seen; if ( $journey->{rt_duration} and $journey->{rt_duration} > 0 ) { if ( not $longest_t or $journey->{rt_duration} > $longest_t->{rt_duration} ) { $longest_t = $journey; } if ( not $shortest_t or $journey->{rt_duration} < $shortest_t->{rt_duration} ) { $shortest_t = $journey; } } if ( $journey->{km_route} ) { if ( not $longest_km or $journey->{km_route} > $longest_km->{km_route} ) { $longest_km = $journey; } if ( not $shortest_km or $journey->{km_route} < $shortest_km->{km_route} ) { $shortest_km = $journey; } } if ( $journey->{messages} and @{ $journey->{messages} } ) { $message_count += 1; for my $message ( @{ $journey->{messages} } ) { if ( not $seen{ $message->[1] } ) { $num_by_message{ $message->[1] } += 1; $seen{ $message->[1] } = 1; } } } if ( $journey->{type} ) { $num_by_linetype{ $journey->{type} } += 1; } if ( $journey->{from_name} ) { $num_by_stop{ $journey->{from_name} } += 1; } if ( $journey->{to_name} ) { $num_by_stop{ $journey->{to_name} } += 1; } if ( $journey->{from_name} and $journey->{to_name} ) { $num_by_trip{ $journey->{from_name} . '|' . $journey->{to_name} } += 1; } if ( $journey->{sched_dep_ts} and $journey->{rt_dep_ts} ) { $journey->{delay_dep} = ( $journey->{rt_dep_ts} - $journey->{sched_dep_ts} ) / 60; } if ( $journey->{sched_arr_ts} and $journey->{rt_arr_ts} ) { $journey->{delay_arr} = ( $journey->{rt_arr_ts} - $journey->{sched_arr_ts} ) / 60; } if ( $journey->{delay_arr} and $journey->{delay_arr} >= 60 ) { $num_fgr += 1; } if ( not $journey->{delay_arr} and not $journey->{delay_dep} ) { $num_punctual += 1; } if ( $journey->{delay_arr} and $journey->{delay_arr} > 0 ) { if ( not $most_delayed or $journey->{delay_arr} > $most_delayed->{delay_arr} ) { $most_delayed = $journey; } } if ( $journey->{rt_duration} and $journey->{sched_duration} and $journey->{rt_duration} > 0 and $journey->{sched_duration} > 0 ) { my $slowdown = $journey->{rt_duration} - $journey->{sched_duration}; my $speedup = -$slowdown; if ( not $most_delay or $slowdown > ( $most_delay->{rt_duration} - $most_delay->{sched_duration} ) ) { $most_delay = $journey; } if ( not $most_undelay or $speedup > ( $most_undelay->{sched_duration} - $most_undelay->{rt_duration} ) ) { $most_undelay = $journey; } } } my @linetypes = sort { $b->[1] <=> $a->[1] } map { [ $_, $num_by_linetype{$_} ] } keys %num_by_linetype; my @stops = sort { $b->[1] <=> $a->[1] } map { [ $_, $num_by_stop{$_} ] } keys %num_by_stop; my @trips = sort { $b->[1] <=> $a->[1] } map { [ $_, $num_by_trip{$_} ] } keys %num_by_trip; my @reasons = sort { $b->[1] <=> $a->[1] } map { [ $_, $num_by_message{$_} ] } keys %num_by_message; $review{num_stops} = scalar @stops; $review{km_circle} = $stats->{km_route} / 40030; $review{km_diag} = $stats->{km_route} / 12742; $review{trains_per_day} = sprintf( '%.1f', $stats->{num_trains} / 365 ); $review{km_route} = sprintf( '%.0f', $stats->{km_route} ); $review{km_beeline} = sprintf( '%.0f', $stats->{km_beeline} ); $review{km_circle_h} = sprintf( '%.1f', $review{km_circle} ); $review{km_diag_h} = sprintf( '%.1f', $review{km_diag} ); $review{trains_per_day} =~ tr{.}{,}; $review{km_circle_h} =~ tr{.}{,}; $review{km_diag_h} =~ tr{.}{,}; my $min_total = $stats->{min_travel_real} + $stats->{min_interchange_real}; $review{traveling_min_total} = $min_total; $review{traveling_percentage_year} = sprintf( "%.1f%%", $min_total * 100 / 525948.77 ); $review{traveling_percentage_year} =~ tr{.}{,}; $review{traveling_time_year} = $self->min_to_human($min_total); if (@linetypes) { $review{typical_type_1} = $linetypes[0][0]; } if ( @linetypes > 1 ) { $review{typical_type_2} = $linetypes[1][0]; } if ( @stops >= 3 ) { my $desc = q{}; $review{typical_stops_3} = [ $stops[0][0], $stops[1][0], $stops[2][0] ]; } elsif ( @stops == 2 ) { $review{typical_stops_2} = [ $stops[0][0], $stops[1][0] ]; } $review{typical_time} = $self->min_to_human( $stats->{min_travel_real} / $stats->{num_trains} ); $review{typical_km} = sprintf( '%.0f', $stats->{km_route} / $stats->{num_trains} ); $review{typical_kmh} = sprintf( '%.0f', $stats->{km_route} / ( $stats->{min_travel_real} / 60 ) ); $review{typical_delay_dep} = sprintf( '%.0f', $stats->{delay_dep} / $stats->{num_trains} ); $review{typical_delay_dep_h} = $self->min_to_human( $review{typical_delay_dep} ); $review{typical_delay_arr} = sprintf( '%.0f', $stats->{delay_arr} / $stats->{num_trains} ); $review{typical_delay_arr_h} = $self->min_to_human( $review{typical_delay_arr} ); if ($longest_t) { $review{longest_t_time} = $self->min_to_human( $longest_t->{rt_duration} / 60 ); $review{longest_t_type} = $longest_t->{type}; $review{longest_t_lineno} = $longest_t->{line} // $longest_t->{no}; $review{longest_t_from} = $longest_t->{from_name}; $review{longest_t_to} = $longest_t->{to_name}; $review{longest_t_id} = $longest_t->{id}; } if ($longest_km) { $review{longest_km_km} = sprintf( '%.0f', $longest_km->{km_route} ); $review{longest_km_type} = $longest_km->{type}; $review{longest_km_lineno} = $longest_km->{line} // $longest_km->{no}; $review{longest_km_from} = $longest_km->{from_name}; $review{longest_km_to} = $longest_km->{to_name}; $review{longest_km_id} = $longest_km->{id}; } if ($shortest_t) { $review{shortest_t_time} = $self->min_to_human( $shortest_t->{rt_duration} / 60 ); $review{shortest_t_type} = $shortest_t->{type}; $review{shortest_t_lineno} = $shortest_t->{line} // $shortest_t->{no}; $review{shortest_t_from} = $shortest_t->{from_name}; $review{shortest_t_to} = $shortest_t->{to_name}; $review{shortest_t_id} = $shortest_t->{id}; } if ($shortest_km) { $review{shortest_km_m} = sprintf( '%.0f', $shortest_km->{km_route} * 1000 ); $review{shortest_km_type} = $shortest_km->{type}; $review{shortest_km_lineno} = $shortest_km->{line} // $shortest_km->{no}; $review{shortest_km_from} = $shortest_km->{from_name}; $review{shortest_km_to} = $shortest_km->{to_name}; $review{shortest_km_id} = $shortest_km->{id}; } if ($most_delayed) { $review{most_delayed_type} = $most_delayed->{type}; $review{most_delayed_delay_dep} = $self->min_to_human( $most_delayed->{delay_dep} ); $review{most_delayed_delay_arr} = $self->min_to_human( $most_delayed->{delay_arr} ); $review{most_delayed_lineno} = $most_delayed->{line} // $most_delayed->{no}; $review{most_delayed_from} = $most_delayed->{from_name}; $review{most_delayed_to} = $most_delayed->{to_name}; $review{most_delayed_id} = $most_delayed->{id}; } if ($most_delay) { $review{most_delay_type} = $most_delay->{type}; $review{most_delay_delay_dep} = $most_delay->{delay_dep}; $review{most_delay_delay_arr} = $most_delay->{delay_arr}; $review{most_delay_sched_time} = $self->min_to_human( $most_delay->{sched_duration} / 60 ); $review{most_delay_real_time} = $self->min_to_human( $most_delay->{rt_duration} / 60 ); $review{most_delay_delta} = $self->min_to_human( ( $most_delay->{rt_duration} - $most_delay->{sched_duration} ) / 60 ); $review{most_delay_lineno} = $most_delay->{line} // $most_delay->{no}; $review{most_delay_from} = $most_delay->{from_name}; $review{most_delay_to} = $most_delay->{to_name}; $review{most_delay_id} = $most_delay->{id}; } if ($most_undelay) { $review{most_undelay_type} = $most_undelay->{type}; $review{most_undelay_delay_dep} = $most_undelay->{delay_dep}; $review{most_undelay_delay_arr} = $most_undelay->{delay_arr}; $review{most_undelay_sched_time} = $self->min_to_human( $most_undelay->{sched_duration} / 60 ); $review{most_undelay_real_time} = $self->min_to_human( $most_undelay->{rt_duration} / 60 ); $review{most_undelay_delta} = $self->min_to_human( ( $most_undelay->{sched_duration} - $most_undelay->{rt_duration} ) / 60 ); $review{most_undelay_lineno} = $most_undelay->{line} // $most_undelay->{no}; $review{most_undelay_from} = $most_undelay->{from_name}; $review{most_undelay_to} = $most_undelay->{to_name}; $review{most_undelay_id} = $most_undelay->{id}; } $review{issue_percent} = sprintf( '%.0f%%', $message_count * 100 / $stats->{num_trains} ); for my $i ( 0 .. 2 ) { if ( $reasons[$i] ) { my $p = 'issue' . ( $i + 1 ); $review{"${p}_count"} = $reasons[$i][1]; $review{"${p}_text"} = $reasons[$i][0]; } } $review{cancel_count} = $num_cancelled; $review{fgr_percent} = $num_fgr * 100 / $stats->{num_trains}; $review{fgr_percent_h} = sprintf( '%.1f%%', $review{fgr_percent} ); $review{fgr_percent_h} =~ tr{.}{,}; $review{punctual_percent} = $num_punctual * 100 / $stats->{num_trains}; $review{punctual_percent_h} = sprintf( '%.1f%%', $review{punctual_percent} ); $review{punctual_percent_h} =~ tr{.}{,}; my $top_trip_count = 0; my $single_trip_count = 0; for my $i ( 0 .. 3 ) { if ( $trips[$i] ) { my ( $from, $to ) = split( qr{[|]}, $trips[$i][0] ); my $found = 0; for my $j ( 0 .. $#{ $review{top_trips} } ) { if ( $review{top_trips}[$j][0] eq $to and $review{top_trips}[$j][2] eq $from ) { $review{top_trips}[$j][1] = '↔'; $found = 1; last; } } if ( not $found ) { push( @{ $review{top_trips} }, [ $from, '→', $to ] ); } $top_trip_count += $trips[$i][1]; } } for my $trip (@trips) { if ( $trip->[1] == 1 ) { $single_trip_count += 1; if ( @{ $review{single_trips} // [] } < 3 ) { push( @{ $review{single_trips} }, [ split( qr{[|]}, $trip->[0] ) ] ); } } } $review{top_trip_count} = $top_trip_count; $review{top_trip_percent_h} = sprintf( '%.1f%%', $top_trip_count * 100 / $stats->{num_trains} ); $review{top_trip_percent_h} =~ tr{.}{,}; $review{single_trip_count} = $single_trip_count; $review{single_trip_percent_h} = sprintf( '%.1f%%', $single_trip_count * 100 / $stats->{num_trains} ); $review{single_trip_percent_h} =~ tr{.}{,}; return \%review; } sub compute_stats { my ( $self, @journeys ) = @_; my $km_route = 0; my $km_beeline = 0; my $min_travel_sched = 0; my $min_travel_real = 0; my $delay_dep = 0; my $delay_arr = 0; my $interchange_real = 0; my $num_trains = 0; my $num_journeys = 0; my @inconsistencies; my $next_departure = 0; my $next_id; my $next_train; for my $journey (@journeys) { $num_trains++; $km_route += $journey->{km_route}; $km_beeline += $journey->{km_beeline}; if ( $journey->{sched_duration} and $journey->{sched_duration} > 0 ) { $min_travel_sched += $journey->{sched_duration} / 60; } if ( $journey->{rt_duration} and $journey->{rt_duration} > 0 ) { $min_travel_real += $journey->{rt_duration} / 60; } if ( $journey->{sched_dep_ts} and $journey->{rt_dep_ts} ) { $delay_dep += ( $journey->{rt_dep_ts} - $journey->{sched_dep_ts} ) / 60; } if ( $journey->{sched_arr_ts} and $journey->{rt_arr_ts} ) { $delay_arr += ( $journey->{rt_arr_ts} - $journey->{sched_arr_ts} ) / 60; } # Note that journeys are sorted from recent to older entries if ( $journey->{rt_arr_ts} and $next_departure and $next_departure - $journey->{rt_arr_ts} < ( 60 * 60 ) ) { if ( $next_departure - $journey->{rt_arr_ts} < 0 ) { push( @inconsistencies, { conflict => { train => $journey->{type} . ' ' . ( $journey->{line} // $journey->{no} ), arr => epoch_to_dt( $journey->{rt_arr_ts} ) ->strftime('%d.%m.%Y %H:%M'), id => $journey->{id}, }, ignored => { train => $next_train, dep => epoch_to_dt($next_departure) ->strftime('%d.%m.%Y %H:%M'), id => $next_id, }, } ); } else { $interchange_real += ( $next_departure - $journey->{rt_arr_ts} ) / 60; } } else { $num_journeys++; } $next_departure = $journey->{rt_dep_ts}; $next_id = $journey->{id}; $next_train = $journey->{type} . ' ' . ( $journey->{line} // $journey->{no} ),; } my $ret = { km_route => $km_route, km_beeline => $km_beeline, num_trains => $num_trains, num_journeys => $num_journeys, min_travel_sched => $min_travel_sched, min_travel_real => $min_travel_real, min_interchange_real => $interchange_real, delay_dep => $delay_dep, delay_arr => $delay_arr, inconsistencies => \@inconsistencies, }; for my $key ( qw(min_travel_sched min_travel_real min_interchange_real delay_dep delay_arr) ) { my $strf_key = $key . '_strf'; my $value = $ret->{$key}; $ret->{$strf_key} = q{}; if ( $ret->{$key} < 0 ) { $ret->{$strf_key} .= '-'; $value *= -1; } $ret->{$strf_key} .= sprintf( '%02d:%02d', $value / 60, $value % 60 ); } return $ret; } sub get_stats { my ( $self, %opt ) = @_; if ( $opt{cancelled} ) { $self->{log} ->warn('get_journey_stats called with illegal option cancelled => 1'); return {}; } my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; my $year = $opt{year} // 0; my $month = $opt{month} // 0; # Assumption: If the stats cache contains an entry it is up-to-date. # -> Cache entries must be explicitly invalidated whenever the user # checks out of a train or manually edits/adds a journey. if ( not $opt{write_only} and not $opt{review} and my $stats = $self->stats_cache->get( uid => $uid, db => $db, year => $year, month => $month ) ) { return $stats; } my $interval_start = DateTime->new( time_zone => 'Europe/Berlin', year => 2000, month => 1, day => 1, hour => 0, minute => 0, second => 0, ); # I wonder if people will still be traveling by train in the year 3000 my $interval_end = $interval_start->clone->add( years => 1000 ); if ( $opt{year} and $opt{month} ) { $interval_start->set( year => $opt{year}, month => $opt{month} ); $interval_end = $interval_start->clone->add( months => 1 ); } elsif ( $opt{year} ) { $interval_start->set( year => $opt{year} ); $interval_end = $interval_start->clone->add( years => 1 ); } my @journeys = $self->get( uid => $uid, cancelled => 0, verbose => 1, with_polyline => 1, after => $interval_start, before => $interval_end ); my $stats = $self->compute_stats(@journeys); $self->stats_cache->add( uid => $uid, db => $db, year => $year, month => $month, stats => $stats ); if ( $opt{review} ) { my @cancelled_journeys = $self->get( uid => $uid, cancelled => 1, verbose => 1, after => $interval_start, before => $interval_end ); return ( $stats, $self->compute_review( $stats, @journeys, @cancelled_journeys ) ); } return $stats; } sub get_latest_dest_ids { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; if ( my ( $id, $backend_id ) = $self->{in_transit}->get_checkout_ids( uid => $uid, db => $db ) ) { return ( $id, $backend_id ); } return $self->get_latest_checkout_ids( uid => $uid, db => $db ); } # Returns a listref of {eva, name} hashrefs for the specified backend. sub get_connection_targets { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $threshold = $opt{threshold} // DateTime->now( time_zone => 'Europe/Berlin' )->subtract( months => 4 ); my $db = $opt{db} //= $self->{pg}->db; my $min_count = $opt{min_count} // 1; my $dest_id = $opt{eva}; if ( $opt{destination_name} ) { return [ { eva => $opt{eva}, name => $opt{destination_name} } ]; } my $backend_id = $opt{backend_id}; if ( not $dest_id ) { ( $dest_id, $backend_id ) = $self->get_latest_dest_ids(%opt); } if ( not $dest_id ) { return []; } my $dest_ids = [ $dest_id, $self->{stations}->get_meta( eva => $dest_id, backend_id => $backend_id, ) ]; my $res = $db->select( 'journeys', 'count(checkout_station_id) as count, checkout_station_id as dest', { user_id => $uid, checkin_station_id => $dest_ids, real_departure => { '>', $threshold }, backend_id => $opt{backend_id}, }, { group_by => ['checkout_station_id'], order_by => { -desc => 'count' } } ); my @destinations = $res->hashes->grep( sub { shift->{count} >= $min_count } ) ->map( sub { shift->{dest} } )->each; @destinations = $self->{stations}->get_by_evas( backend_id => $opt{backend_id}, evas => [@destinations] ); return @destinations; } sub update_visibility { my ( $self, %opt ) = @_; my $uid = $opt{uid}; my $db = $opt{db} // $self->{pg}->db; my $visibility; if ( $opt{visibility} and $visibility_atoi{ $opt{visibility} } ) { $visibility = $visibility_atoi{ $opt{visibility} }; } $db->update( 'journeys', { visibility => $visibility }, { user_id => $uid, id => $opt{id} } ); } 1;