openproject/lib/open_project/nested_set/root_id_rebuilding.rb

#-- encoding: UTF-8
#-- copyright
# OpenProject is a project management system.
# Copyright (C) 2012-2014 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.
#++

# This module, when included, adds the ability to rebuild nested sets that are
# scoped by a root_id attribute.
#
# For the details of rebuilding see the included RebuildPatch.

module OpenProject::NestedSet
  module RootIdRebuilding
    def self.included(base)
      base.class_eval do

        include RebuildPatch

        # find all nodes
        # * having set a parent_id where the root_id
        #   1) points to self
        #   2) points to a node with a parent
        #   3) points to a node having a different root_id
        # * having not set a parent_id but a root_id
        # This unfortunately does not find the node with the id 3 in the following example
        # | id  | parent_id | root_id |
        # | 1   |           | 1       |
        # | 2   | 1         | 2       |
        # | 3   | 2         | 2       |
        # This would only be possible using recursive statements
        scope :invalid_root_ids, { :conditions => "(#{quoted_parent_column_full_name} IS NOT NULL AND " +
                                                          "(#{quoted_table_name}.root_id = #{quoted_table_name}.id OR " +
                                                          "(#{quoted_table_name}.root_id = parents.#{quoted_primary_key} AND parents.#{quoted_parent_column_name} IS NOT NULL) OR " +
                                                          "(#{quoted_table_name}.root_id != parents.root_id))" +
                                                        ") OR " +
                                                        "(#{quoted_table_name}.parent_id IS NULL AND #{quoted_table_name}.root_id != #{quoted_table_name}.#{quoted_primary_key})",
                                         :joins => "LEFT OUTER JOIN #{quoted_table_name} parents ON parents.#{quoted_primary_key} = #{quoted_parent_column_full_name}" }

        extend ClassMethods
      end
    end

    module ClassMethods
      # method from acts_as_nested_set
      def valid?
        super && invalid_root_ids.empty?
      end

      def all_invalid
        (super + invalid_root_ids).uniq
      end

      def rebuild_silently!(roots = nil)

        invalid_root_ids_to_fix = if roots.is_a? Array
                                    roots
                                  elsif roots.present?
                                    [roots]
                                  else
                                    []
                                  end

        known_node_parents = Hash.new do |hash, ancestor_id|
          hash[ancestor_id] = find_by_id(ancestor_id)
        end

        fix_known_invalid_root_ids = lambda do
          invalid_nodes = invalid_root_ids

          invalid_roots = []

          invalid_nodes.each do |node|
            # At this point we can not trust nested set methods as the root_id is invalid.
            # Therefore we trust the parent_id to fetch all ancestors until we find the root
            ancestor = node

            while ancestor.parent_id do
              ancestor = known_node_parents[ancestor.parent_id]
            end

            invalid_roots << ancestor

            if invalid_root_ids_to_fix.empty? || invalid_root_ids_to_fix.map(&:id).include?(ancestor.id)
              update_all({ :root_id => ancestor.id },
                         { :id => node.id })
            end
          end

          fix_known_invalid_root_ids.call unless (invalid_roots.map(&:id) & invalid_root_ids_to_fix.map(&:id)).empty?
        end

        fix_known_invalid_root_ids.call

        super
      end
    end
  end
end
patches nested_set to add tree rebuilding methods that are not using save The original nested_set implementation uses save on each node (issue, project). With the callbacks defined on issues, this can lead to stale object errors when an issues has been loaded by the rebuilding method but changed by a callback. The rebuild_silently! method can also take root nodes as their parameter. With such provided the method will only fix their trees. This is build upon by the selectively_rebuild_silently! method which first looks for invalid nodes, determines their root node and then calls rebuild_silently! with those root nodes. This should speed up rebuilding on large trees. Additionally, methods where added as a byproduct to retreive nodes who's tree attributes are invalid. 11 years ago			`#-- encoding: UTF-8`
			`#-- copyright`
			`# OpenProject is a project management system.`
updates copyright headers updates more copyright more copyright headers 11 years ago			`# Copyright (C) 2012-2014 the OpenProject Foundation (OPF)`
patches nested_set to add tree rebuilding methods that are not using save The original nested_set implementation uses save on each node (issue, project). With the callbacks defined on issues, this can lead to stale object errors when an issues has been loaded by the rebuilding method but changed by a callback. The rebuild_silently! method can also take root nodes as their parameter. With such provided the method will only fix their trees. This is build upon by the selectively_rebuild_silently! method which first looks for invalid nodes, determines their root node and then calls rebuild_silently! with those root nodes. This should speed up rebuilding on large trees. Additionally, methods where added as a byproduct to retreive nodes who's tree attributes are invalid. 11 years ago			`#`
			`# This program is free software; you can redistribute it and/or`
			`# modify it under the terms of the GNU General Public License version 3.`
			`#`
new copyright header #1903 11 years ago			`# 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.`
			`#`
patches nested_set to add tree rebuilding methods that are not using save The original nested_set implementation uses save on each node (issue, project). With the callbacks defined on issues, this can lead to stale object errors when an issues has been loaded by the rebuilding method but changed by a callback. The rebuild_silently! method can also take root nodes as their parameter. With such provided the method will only fix their trees. This is build upon by the selectively_rebuild_silently! method which first looks for invalid nodes, determines their root node and then calls rebuild_silently! with those root nodes. This should speed up rebuilding on large trees. Additionally, methods where added as a byproduct to retreive nodes who's tree attributes are invalid. 11 years ago			`# See doc/COPYRIGHT.rdoc for more details.`
			`#++`

			`# This module, when included, adds the ability to rebuild nested sets that are`
			`# scoped by a root_id attribute.`
			`#`
			`# For the details of rebuilding see the included RebuildPatch.`

			`module OpenProject::NestedSet`
			`module RootIdRebuilding`
			`def self.included(base)`
			`base.class_eval do`

			`include RebuildPatch`

			`# find all nodes`
			`# * having set a parent_id where the root_id`
			`# 1) points to self`
			`# 2) points to a node with a parent`
			`# 3) points to a node having a different root_id`
			`# * having not set a parent_id but a root_id`
			`# This unfortunately does not find the node with the id 3 in the following example`
			`# \| id \| parent_id \| root_id \|`
			`# \| 1 \| \| 1 \|`
			`# \| 2 \| 1 \| 2 \|`
			`# \| 3 \| 2 \| 2 \|`
			`# This would only be possible using recursive statements`
			`scope :invalid_root_ids, { :conditions => "(#{quoted_parent_column_full_name} IS NOT NULL AND " +`
			`"(#{quoted_table_name}.root_id = #{quoted_table_name}.id OR " +`
			`"(#{quoted_table_name}.root_id = parents.#{quoted_primary_key} AND parents.#{quoted_parent_column_name} IS NOT NULL) OR " +`
			`"(#{quoted_table_name}.root_id != parents.root_id))" +`
			`") OR " +`
			`"(#{quoted_table_name}.parent_id IS NULL AND #{quoted_table_name}.root_id != #{quoted_table_name}.#{quoted_primary_key})",`
			`:joins => "LEFT OUTER JOIN #{quoted_table_name} parents ON parents.#{quoted_primary_key} = #{quoted_parent_column_full_name}" }`

			`extend ClassMethods`
			`end`
			`end`

			`module ClassMethods`
			`# method from acts_as_nested_set`
			`def valid?`
			`super && invalid_root_ids.empty?`
			`end`

			`def all_invalid`
			`(super + invalid_root_ids).uniq`
			`end`

			`def rebuild_silently!(roots = nil)`

			`invalid_root_ids_to_fix = if roots.is_a? Array`
			`roots`
			`elsif roots.present?`
			`[roots]`
			`else`
			`[]`
			`end`

			`known_node_parents = Hash.new do \|hash, ancestor_id\|`
			`hash[ancestor_id] = find_by_id(ancestor_id)`
			`end`

			`fix_known_invalid_root_ids = lambda do`
			`invalid_nodes = invalid_root_ids`

			`invalid_roots = []`

			`invalid_nodes.each do \|node\|`
			`# At this point we can not trust nested set methods as the root_id is invalid.`
			`# Therefore we trust the parent_id to fetch all ancestors until we find the root`
			`ancestor = node`

			`while ancestor.parent_id do`
			`ancestor = known_node_parents[ancestor.parent_id]`
			`end`

			`invalid_roots << ancestor`

			`if invalid_root_ids_to_fix.empty? \|\| invalid_root_ids_to_fix.map(&:id).include?(ancestor.id)`
			`update_all({ :root_id => ancestor.id },`
			`{ :id => node.id })`
			`end`
			`end`

			`fix_known_invalid_root_ids.call unless (invalid_roots.map(&:id) & invalid_root_ids_to_fix.map(&:id)).empty?`
			`end`

			`fix_known_invalid_root_ids.call`

			`super`
			`end`
			`end`
			`end`
			`end`