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openproject/lib/open_project/nested_set/root_id_handling.rb

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#-- encoding: UTF-8
#-- copyright
# OpenProject is a project management system.
# Copyright (C) 2012-2013 the OpenProject Foundation (OPF)
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License version 3.
#
# OpenProject is a fork of ChiliProject, which is a fork of Redmine. The copyright follows:
# Copyright (C) 2006-2013 Jean-Philippe Lang
# Copyright (C) 2010-2013 the ChiliProject Team
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# See doc/COPYRIGHT.rdoc for more details.
#++
# When included it adds the nested_set behaviour scoped by the attribute
# 'root_id'
#
# AwesomeNestedSet offers beeing scoped but does not handle inserting and
# updating with the scoped beeing set right. This module adds this.
#
# When beeing scoped, we no longer have one big set over the the entire table
# but a forest of sets instead.
#
# The idea of this extension is to always place the node in the correct set
# before standard awesome_nested_set does something. This is necessary as all
# awesome_nested_set methods check for the scope. Operations crossing the
# border of a set are not supported.
#
# One goal of this implementation is to avoid using move_to of
# awesome_nested_set so that the callbacks defined for move_to (:before_move,
# :after_move and :around_move) can safely be used.
module OpenProject::NestedSet
module RootIdHandling
def self.included(base)
base.class_eval do
after_save :manage_root_id
acts_as_nested_set :scope => 'root_id', :dependent => :destroy
# callback from awesome_nested_set
# we call it by hand as we have to set the scope first
skip_callback :create, :before, :set_default_left_and_right
validate :validate_correct_parent
include InstanceMethods
end
end
module InstanceMethods
# The number of "items" this issue spans in it's nested set
#
# A parent issue would span all of it's children + 1 left + 1 right (3)
#
# | parent |
# || child ||
#
# A child would span only itself (1)
#
# |child|
def nested_set_span
rgt - lft
end
# Does this issue have children?
def children?
!leaf?
end
def validate_correct_parent
# Checks parent issue assignment
if parent
if !Setting.cross_project_issue_relations? && parent.project_id != self.project_id
errors.add :parent_id, :not_a_valid_parent
elsif !new_record?
# moving an existing issue
if parent.root_id != root_id
# we can always move to another tree
elsif move_possible?(parent)
# move accepted inside tree
else
errors.add :parent_id, :not_a_valid_parent
end
end
end
end
def parent_issue_id=(arg)
warn "[DEPRECATION] No longer use parent_issue_id= - Use parent_id= instead."
self.parent_id = arg
end
def parent_issue_id
warn "[DEPRECATION] No longer use parent_issue_id - Use parent_id instead."
parent_id
end
private
def manage_root_id
if root_id.nil? # new node
initial_root_id
elsif parent_id_changed?
update_root_id
end
end
# Places the node in the correct set upon creation.
#
# If a parent is provided on creation, the new node is placed in the set
# of the parent. If no parent is provided, the new node defines it's own
# set.
def initial_root_id
if parent_id
self.root_id = parent.root_id
else
self.root_id = id
end
set_default_left_and_right
persist_nested_set_attributes
end
# Places the node in a new set when necessary, so that it can be assigned
# to a different parent.
#
# This method does nothing if the new parent is within the same set. The
# method puts the node and all it's descendants in the set of the
# designated parent if the designated parent is within another set.
def update_root_id
new_root_id = parent_id.nil? ? id : parent.root_id
if new_root_id != root_id
# as the following actions depend on the
# node having current values, we reload them here
self.reload_nested_set
# and save them in order to be save between removing the node from
# the set and fixing the former set's attributes
old_root_id = root_id
old_rgt = rgt
moved_span = nested_set_span + 1
move_subtree_to_new_set(new_root_id)
correct_former_set_attributes(old_root_id, moved_span, old_rgt)
end
end
def persist_nested_set_attributes
self.class.update_all("root_id = #{root_id}, " +
"#{quoted_left_column_name} = #{lft}, " +
"#{quoted_right_column_name} = #{rgt}",
["id = ?", id])
end
# Moves the node and all it's descendants to the set with the provided
# root_id. It does not change the parent/child relationships.
#
# The subtree is placed to the right of the existing tree. All the
# subtree's nodes receive new lft/rgt values that are higher than the
# maximum rgt value of the set.
#
# The set than has two roots. As such this method should only be used
# internally and the results should only be persisted for a short time.
def move_subtree_to_new_set(new_root_id)
old_root_id = self.root_id
self.root_id = new_root_id
target_maxright = nested_set_scope.maximum(right_column_name) || 0
offset = target_maxright + 1 - lft
# update all the sutree's nodes. The lft and right values are incremented
# by the maximum of the set's right value.
self.class.update_all("root_id = #{root_id}, " +
"#{quoted_left_column_name} = lft + #{offset}, " +
"#{quoted_right_column_name} = rgt + #{offset}",
["root_id = ? AND " +
"#{quoted_left_column_name} >= ? AND " +
"#{quoted_right_column_name} <= ? ", old_root_id, lft, rgt])
self[left_column_name] = lft + offset
self[right_column_name] = rgt + offset
end
# Update all nodes left and right values in the former set having a right
# value larger than self's former right value.
#
# It calculates what will have to be subtracted from the left and right
# values of the nodes in question. Then it will always subtract this
# value from the right value of every node. It will only subtract the
# value from the left value if the left value is larger than the removed
# node's right value.
#
# Given a set:
# 1*6
# / \
# 2*3 4*5
# for wich the node with lft = 2 and rgt = 3 is self and was removed, the
# resulting set will be:
# 1*4
# |
# 2*3
def correct_former_set_attributes(old_root_id, removed_span, rgt_offset)
# As every node takes two integers we can multiply the amount of
# removed_nodes by 2 to calculate the value by which right and left
# will have to be reduced.
#removed_span = removed_nodes * 2
self.class.update_all("#{quoted_right_column_name} = #{quoted_right_column_name} - #{removed_span}, " +
"#{quoted_left_column_name} = CASE " +
"WHEN #{quoted_left_column_name} > #{rgt_offset} " +
"THEN #{quoted_left_column_name} - #{removed_span} " +
"ELSE #{quoted_left_column_name} END",
["root_id = ? AND #{quoted_right_column_name} > ?", old_root_id, rgt_offset])
end
end
end
end