class Task < ApplicationRecord
has_many :assignments, dependent: :destroy
has_many :users, through: :assignments
belongs_to :workgroup, optional: true
belongs_to :periodic_task_group, optional: true
belongs_to :created_by, class_name: 'User', foreign_key: 'created_by_user_id', optional: true
scope :non_group, -> { where(workgroup_id: nil, done: false) }
scope :done, -> { where(done: true) }
scope :undone, -> { where(done: false) }
attr_accessor :current_user_id
validates :name, presence: true, length: { minimum: 3 }
validates :required_users, presence: true
validates :duration, :required_users, numericality: { only_integer: true, greater_than: 0 }
validates :description, length: { maximum: 250 }
validates :done, exclusion: { in: [true] }, if: :periodic?, on: :create
validates :due_date, presence: { if: :periodic? }
before_save :exclude_from_periodic_task_group, if: :changed?, unless: :new_record?
after_save :update_ordergroup_stats
# Find all tasks, for which the current user should be responsible
# but which aren't accepted yet
def self.unaccepted_tasks_for(user)
user.tasks.undone.where(assignments: { accepted: false })
end
# Find all accepted tasks, which aren't done
def self.accepted_tasks_for(user)
user.tasks.undone.where(assignments: { accepted: true })
end
# find all tasks in the period (or another number of days)
def self.next_assigned_tasks_for(user, number = FoodsoftConfig[:tasks_period_days].to_i)
user.tasks.undone.where(assignments: { accepted: true })
.where(['tasks.due_date >= ? AND tasks.due_date <= ?', Time.now, number.days.from_now])
end
# count tasks with not enough responsible people
# tasks for groups the user is not a member are ignored
def self.unassigned_tasks_for(user)
undone.includes(:assignments, workgroup: :memberships).select do |task|
!task.enough_users_assigned? and
(!task.workgroup or task.workgroup.memberships.detect { |m| m.user_id == user.id })
end
end
def self.next_unassigned_tasks_for(user, max = 2)
periodic_task_group_count = {}
unassigned_tasks_for(user).reject do |item|
next false unless item.periodic_task_group
count = periodic_task_group_count[item.periodic_task_group] || 0
periodic_task_group_count[item.periodic_task_group] = count + 1
count >= max
end
end
def periodic?
!periodic_task_group.nil?
end
def is_assigned?(user)
assignments.detect { |ass| ass.user_id == user.id }
end
def is_accepted?(user)
assignments.detect { |ass| ass.user_id == user.id && ass.accepted }
end
def enough_users_assigned?
assignments.to_a.count(&:accepted) >= required_users
end
def still_required_users
required_users - assignments.to_a.count(&:accepted)
end
# Get users from comma seperated ids
# and makes the users responsible for the task
# TODO: check for maximal number of users
def user_list=(ids)
list = ids.split(',').map(&:to_i)
new_users = (list - users.collect(&:id)).uniq
old_users = users.reject { |user| list.include?(user.id) }
self.class.transaction do
# delete old assignments
assignments.where(user_id: old_users.map(&:id)).find_each(&:destroy) if old_users.any?
# create new assignments
new_users.each do |id|
user = User.find(id)
if user.blank?
errors.add(:user_list)
elsif id == current_user_id.to_i
assignments.build user: user, accepted: true
# current_user will accept, when he puts himself to the list of users
else
# normal assignement
assignments.build user: user
end
end
end
end
def user_list
@user_list ||= users.collect(&:id).join(', ')
end
def update_ordergroup_stats(user_ids = self.user_ids)
Ordergroup.joins(:users).where(users: { id: user_ids }).find_each(&:update_stats!)
end
def exclude_from_periodic_task_group
self.periodic_task_group = nil
true
end
end