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openproject/lib/open_project/nested_set/rebuild_patch.rb

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#-- 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.
#++
# When included, it adds the ability to rebuild nested sets, thus fixing
# corrupted trees.
#
# AwesomeNestedSet has this functionality as well but it fixes the sets with
# running the callbacks defined in the model. This has two drawbacks:
#
# * It is prone to fail when a validation fails that has nothing to do with
# nested sets.
# * It is slow.
#
# The methods included are purely sql based. The code in here is partly copied
# over from awesome_nested_set's non sql methods.
module OpenProject::NestedSet::RebuildPatch
def self.included(base)
base.class_eval do
scope :invalid_left_and_rights,
:joins => "LEFT OUTER JOIN #{quoted_table_name} AS parent ON " +
"#{quoted_table_name}.#{quoted_parent_column_name} = parent.#{primary_key}",
:conditions =>
"#{quoted_table_name}.#{quoted_left_column_name} IS NULL OR " +
"#{quoted_table_name}.#{quoted_right_column_name} IS NULL OR " +
"#{quoted_table_name}.#{quoted_left_column_name} >= " +
"#{quoted_table_name}.#{quoted_right_column_name} OR " +
"(#{quoted_table_name}.#{quoted_parent_column_name} IS NOT NULL AND " +
"(#{quoted_table_name}.#{quoted_left_column_name} <= parent.#{quoted_left_column_name} OR " +
"#{quoted_table_name}.#{quoted_right_column_name} >= parent.#{quoted_right_column_name}))"
scope :invalid_duplicates_in_columns, lambda {
scope_string = Array(acts_as_nested_set_options[:scope]).map do |c|
"#{quoted_table_name}.#{connection.quote_column_name(c)} = duplicates.#{connection.quote_column_name(c)}"
end.join(" AND ")
scope_string = scope_string.size > 0 ? scope_string + " AND " : ""
{ :joins => "LEFT OUTER JOIN #{quoted_table_name} AS duplicates ON " +
scope_string +
"#{quoted_table_name}.#{primary_key} != duplicates.#{primary_key} AND " +
"(#{quoted_table_name}.#{quoted_left_column_name} = duplicates.#{quoted_left_column_name} OR " +
"#{quoted_table_name}.#{quoted_right_column_name} = duplicates.#{quoted_right_column_name})",
:conditions => "duplicates.#{primary_key} IS NOT NULL" }
}
scope :invalid_roots, lambda {
scope_string = Array(acts_as_nested_set_options[:scope]).map do |c|
"#{quoted_table_name}.#{connection.quote_column_name(c)} = other.#{connection.quote_column_name(c)}"
end.join(" AND ")
scope_string = scope_string.size > 0 ? scope_string + " AND " : ""
{ :joins => "LEFT OUTER JOIN #{quoted_table_name} AS other ON " +
"#{quoted_table_name}.#{primary_key} != other.#{primary_key} AND " +
"#{quoted_table_name}.#{parent_column_name} IS NULL AND " +
"other.#{parent_column_name} IS NULL AND " +
scope_string +
"#{quoted_table_name}.#{quoted_left_column_name} <= other.#{quoted_right_column_name} AND " +
"#{quoted_table_name}.#{quoted_right_column_name} >= other.#{quoted_left_column_name}",
:conditions => "other.#{primary_key} IS NOT NULL",
:order => quoted_left_column_name }
}
extend(ClassMethods)
end
end
module ClassMethods
def selectively_rebuild_silently!
all_invalid
invalid_roots, invalid_descendants = all_invalid.partition{ |node| node.send(parent_column_name).nil? }
while invalid_descendants.size > 0 do
invalid_descendants_parents = invalid_descendants.map{ |node| find(node.send(parent_column_name)) }
new_invalid_roots, invalid_descendants = invalid_descendants_parents.partition{ |node| node.send(parent_column_name).nil? }
invalid_roots += new_invalid_roots
invalid_descendants.uniq!
end
rebuild_silently!(invalid_roots.uniq)
end
# Rebuilds the left & rights if unset or invalid. Also very useful for converting from acts_as_tree.
# Very similar to original nested_set implementation but uses update_all so that callbacks are not triggered
def rebuild_silently!(roots = nil)
# Don't rebuild a valid tree.
return true if valid?
scope = lambda{ |node| }
if acts_as_nested_set_options[:scope]
scope = lambda{ |node|
scope_column_names.inject(""){|str, column_name|
str << "AND #{connection.quote_column_name(column_name)} = #{connection.quote(node.send(column_name.to_sym))} "
}
}
end
# setup index
indices = Hash.new do |h, k|
h[k] = 0
end
set_left_and_rights = lambda do |node|
# set left
node[left_column_name] = indices[scope.call(node)] += 1
# find
children = all(:conditions => ["#{quoted_parent_column_name} = ? #{scope.call(node)}", node],
:order => [quoted_left_column_name,
quoted_right_column_name,
acts_as_nested_set_options[:order]].compact.join(", "))
children.each{ |n| set_left_and_rights.call(n) }
# set right
node[right_column_name] = indices[scope.call(node)] += 1
changes = node.changes.inject({}) do |hash, (attribute, values)|
hash[attribute] = node.send(attribute.to_s)
hash
end
update_all(changes, { :id => node.id }) unless changes.empty?
end
# Find root node(s)
# or take provided
root_nodes = if roots.is_a? Array
roots
elsif roots.present?
[roots]
else
all(:conditions => "#{quoted_parent_column_name} IS NULL",
:order => [quoted_left_column_name,
quoted_right_column_name,
acts_as_nested_set_options[:order]].compact.join(", "))
end
root_nodes.each do |root_node|
set_left_and_rights.call(root_node)
end
end
def all_invalid
invalid = invalid_roots + invalid_left_and_rights + invalid_duplicates_in_columns
invalid.uniq
end
end
end