demarches-normaliennes/app/models/concerns/dossier_rebase_concern.rb

143 lines
4 KiB
Ruby

module DossierRebaseConcern
extend ActiveSupport::Concern
def rebase!
if can_rebase?
transaction do
rebase
end
end
end
def rebase_later
DossierRebaseJob.perform_later(self)
end
def can_rebase?
revision != procedure.published_revision &&
(brouillon? || accepted_en_construction_changes? || accepted_en_instruction_changes?)
end
def pending_changes
revision.compare(procedure.published_revision)
end
def can_rebase_mandatory_change?(stable_id)
!champs.filter { _1.stable_id == stable_id }.any?(&:blank?)
end
private
def accepted_en_construction_changes?
en_construction? && pending_changes.all? { _1.can_rebase?(self) }
end
def accepted_en_instruction_changes?
en_instruction? && pending_changes.all? { _1.can_rebase?(self) }
end
def rebase
# revision we are rebasing to
target_revision = procedure.published_revision
# index published types de champ coordinates by stable_id
target_coordinates_by_stable_id = target_revision
.revision_types_de_champ
.includes(:type_de_champ, :parent)
.index_by(&:stable_id)
changes_by_op = pending_changes
.group_by(&:op)
.tap { _1.default = [] }
# add champ
changes_by_op[:add]
.map(&:stable_id)
.map { target_coordinates_by_stable_id[_1] }
.each { add_new_champs_for_revision(_1) }
# remove champ
changes_by_op[:remove]
.each { delete_champs_for_revision(_1.stable_id) }
changes_by_op[:update]
.map { |change| [change, champs.joins(:type_de_champ).where(type_de_champ: { stable_id: change.stable_id })] }
.each { |change, champs| apply(change, champs) }
# due to repetition tdc clone on update or erase
# we must reassign tdc to the latest version
Champ
.includes(:type_de_champ)
.where(dossier: self)
.map { [_1, target_coordinates_by_stable_id[_1.stable_id].type_de_champ] }
.each { |champ, target_tdc| champ.update_columns(type_de_champ_id: target_tdc.id, rebased_at: Time.zone.now) }
# update dossier revision
self.update_column(:revision_id, target_revision.id)
end
def apply(change, champs)
case change.attribute
when :type_champ
champs.each { purge_piece_justificative_file(_1) }
GeoArea.where(champ: champs).destroy_all
Etablissement.where(champ: champs).destroy_all
{
type: "Champs::#{change.to.classify}Champ",
value: nil,
value_json: nil,
external_id: nil,
data: nil
}
when :drop_down_options
{ value: nil }
when :carte_layers
# if we are removing cadastres layer, we need to remove cadastre geo areas
if change.from.include?(:cadastres) && !change.to.include?(:cadastres)
champs.each { _1.cadastres.each(&:destroy) }
end
nil
end
&.then { champs.update_all(_1) }
end
def add_new_champs_for_revision(target_coordinate)
if target_coordinate.child?
# If this type de champ is a child, we create a new champ for each row of the parent
parent_stable_id = target_coordinate.parent.stable_id
champs_repetition = champs
.includes(:champs, :type_de_champ)
.where(type_de_champ: { stable_id: parent_stable_id })
champs_repetition.each do |champ_repetition|
champ_repetition.champs.map(&:row).uniq.each do |row|
create_champ(target_coordinate, champ_repetition, row: row)
end
end
else
create_champ(target_coordinate, self)
end
end
def create_champ(target_coordinate, parent, row: nil)
params = { revision: target_coordinate.revision }
params[:row] = row if row
champ = target_coordinate
.type_de_champ
.build_champ(params)
parent.champs << champ
end
def delete_champs_for_revision(stable_id)
champs
.joins(:type_de_champ)
.where(types_de_champ: { stable_id: })
.destroy_all
end
def purge_piece_justificative_file(champ)
ActiveStorage::Attachment.where(id: champ.piece_justificative_file.ids).delete_all
end
end