Module: Sequel::Plugins::RcteTree
- Defined in:
- lib/sequel/plugins/rcte_tree.rb
Overview
Overview
The rcte_tree plugin deals with tree structured data stored in the database using the adjacency list model (where child rows have a foreign key pointing to the parent rows), using recursive common table expressions to load all ancestors in a single query, all descendants in a single query, and all descendants to a given level (where level 1 is children, level 2 is children and grandchildren etc.) in a single query.
Background
There are two types of common models for storing tree structured data in an SQL database, the adjacency list model and the nested set model. Before recursive common table expressions (or similar capabilities such as CONNECT BY for Oracle), the nested set model was the only easy way to retrieve all ancestors and descendants in a single query. However, it has significant performance corner cases.
On PostgreSQL 8.4, with a significant number of rows, the nested set model is almost 500 times slower than using a recursive common table expression with the adjacency list model to get all descendants, and almost 24,000 times slower to get all descendants to a given level.
Considering that the nested set model requires more difficult management than the adjacency list model, it’s almost always better to use the adjacency list model if your database supports common table expressions. See explainextended.com/2009/09/24/adjacency-list-vs-nested-sets-postgresql/ for detailed analysis.
Usage
The rcte_tree plugin adds four associations to the model: parent, children, ancestors, and descendants. Both the parent and children are fairly standard many_to_one and one_to_many associations, respectively. However, the ancestors and descendants associations are special. Both the ancestors and descendants associations will automatically set the parent and children associations, respectively, for current object and all of the ancestor or descendant objects, whenever they are loaded (either eagerly or lazily). Additionally, the descendants association can take a level argument when called eagerly, which limits the returned objects to only that many levels in the tree (see the Overview).
Model.plugin :rcte_tree
# Lazy loading
model = Model.first
model.parent
model.children
model.ancestors # Populates :parent association for all ancestors
model.descendants # Populates :children association for all descendants
# Eager loading - also populates the :parent and children associations
# for all ancestors and descendants
Model.filter(:id=>[1, 2]).eager(:ancestors, :descendants).all
# Eager loading children and grand children
Model.filter(:id=>[1, 2]).eager(:descendants=>2).all
# Eager loading children, grand children, and great grand children
Model.filter(:id=>[1, 2]).eager(:descendants=>3).all
Options
You can override the options for any specific association by making sure the plugin options contain one of the following keys:
- :parent
-
hash of options for the parent association
- :children
-
hash of options for the children association
- :ancestors
-
hash of options for the ancestors association
- :descendants
-
hash of options for the descendants association
Note that you can change the name of the above associations by specifying a :name key in the appropriate hash of options above. For example:
Model.plugin :rcte_tree, :parent=>{:name=>:mother},
:children=>{:name=>:daughters}, :descendants=>{:name=>:offspring}
Any other keys in the main options hash are treated as options shared by all of the associations. Here’s a few options that affect the plugin:
- :key
-
The foreign key in the table that points to the primary key of the parent (default: :parent_id)
- :primary_key
-
The primary key to use (default: the model’s primary key)
- :key_alias
-
The symbol identifier to use for aliasing when eager loading (default: :x_root_x)
- :cte_name
-
The symbol identifier to use for the common table expression (default: :t)
- :level_alias
-
The symbol identifier to use when eagerly loading descendants up to a given level (default: :x_level_x)
Class Method Summary collapse
-
.apply(model, opts = OPTS) ⇒ Object
Create the appropriate parent, children, ancestors, and descendants associations for the model.
Class Method Details
.apply(model, opts = OPTS) ⇒ Object
Create the appropriate parent, children, ancestors, and descendants associations for the model.
95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 |
# File 'lib/sequel/plugins/rcte_tree.rb', line 95 def self.apply(model, opts=OPTS) model.plugin :tree, opts opts = opts.dup opts[:class] = model opts[:methods_module] = Module.new model.send(:include, opts[:methods_module]) key = opts[:key] ||= :parent_id prkey = opts[:primary_key] ||= model.primary_key ka = opts[:key_alias] ||= :x_root_x t = opts[:cte_name] ||= :t c_all = if model.dataset.recursive_cte_requires_column_aliases? # Work around Oracle/ruby-oci8 bug that returns integers as BigDecimals in recursive queries. conv_bd = model.db.database_type == :oracle col_aliases = model.dataset.columns model_table = model.table_name col_aliases.map{|c| SQL::QualifiedIdentifier.new(model_table, c)} else [SQL::ColumnAll.new(model.table_name)] end bd_conv = lambda{|v| conv_bd && v.is_a?(BigDecimal) ? v.to_i : v} key_array = Array(key) prkey_array = Array(prkey) if key.is_a?(Array) key_conv = lambda{|m| key_array.map{|k| m[k]}} key_present = lambda{|m| key_conv[m].all?} prkey_conv = lambda{|m| prkey_array.map{|k| m[k]}} key_aliases = (0...key_array.length).map{|i| :"#{ka}_#{i}"} ka_conv = lambda{|m| key_aliases.map{|k| m[k]}} ancestor_base_case_columns = prkey_array.zip(key_aliases).map{|k, ka_| SQL::AliasedExpression.new(k, ka_)} + c_all descendant_base_case_columns = key_array.zip(key_aliases).map{|k, ka_| SQL::AliasedExpression.new(k, ka_)} + c_all recursive_case_columns = prkey_array.zip(key_aliases).map{|k, ka_| SQL::QualifiedIdentifier.new(t, ka_)} + c_all extract_key_alias = lambda{|m| key_aliases.map{|ka_| bd_conv[m.values.delete(ka_)]}} else key_present = key_conv = lambda{|m| m[key]} prkey_conv = lambda{|m| m[prkey]} key_aliases = [ka] ka_conv = lambda{|m| m[ka]} ancestor_base_case_columns = [SQL::AliasedExpression.new(prkey, ka)] + c_all descendant_base_case_columns = [SQL::AliasedExpression.new(key, ka)] + c_all recursive_case_columns = [SQL::QualifiedIdentifier.new(t, ka)] + c_all extract_key_alias = lambda{|m| bd_conv[m.values.delete(ka)]} end parent = opts.merge(opts.fetch(:parent, {})).fetch(:name, :parent) childrena = opts.merge(opts.fetch(:children, {})).fetch(:name, :children) opts[:reciprocal] = nil a = opts.merge(opts.fetch(:ancestors, {})) ancestors = a.fetch(:name, :ancestors) a[:read_only] = true unless a.has_key?(:read_only) a[:eager_loader_key] = key a[:dataset] ||= proc do base_ds = model.filter(prkey_array.zip(key_array.map{|k| get_column_value(k)})) recursive_ds = model.join(t, key_array.zip(prkey_array)) if c = a[:conditions] (base_ds, recursive_ds) = [base_ds, recursive_ds].collect do |ds| (c.is_a?(Array) && !Sequel.condition_specifier?(c)) ? ds.filter(*c) : ds.filter(c) end end table_alias = model.dataset.schema_and_table(model.table_name)[1].to_sym model.from(SQL::AliasedExpression.new(t, table_alias)). with_recursive(t, col_aliases ? base_ds.select(*col_aliases) : base_ds.select_all, recursive_ds.select(*c_all), :args=>col_aliases) end aal = Array(a[:after_load]) aal << proc do |m, ancs| unless m.associations.has_key?(parent) parent_map = {prkey_conv[m]=>m} child_map = {} child_map[key_conv[m]] = m if key_present[m] m.associations[parent] = nil ancs.each do |obj| obj.associations[parent] = nil parent_map[prkey_conv[obj]] = obj if ok = key_conv[obj] child_map[ok] = obj end end parent_map.each do |parent_id, obj| if child = child_map[parent_id] child.associations[parent] = obj end end end end a[:after_load] ||= aal a[:eager_loader] ||= proc do |eo| id_map = eo[:id_map] parent_map = {} children_map = {} eo[:rows].each do |obj| parent_map[prkey_conv[obj]] = obj (children_map[key_conv[obj]] ||= []) << obj obj.associations[ancestors] = [] obj.associations[parent] = nil end r = model.association_reflection(ancestors) base_case = model.filter(prkey=>id_map.keys). select(*ancestor_base_case_columns) recursive_case = model.join(t, key_array.zip(prkey_array)). select(*recursive_case_columns) if c = r[:conditions] (base_case, recursive_case) = [base_case, recursive_case].collect do |ds| (c.is_a?(Array) && !Sequel.condition_specifier?(c)) ? ds.filter(*c) : ds.filter(c) end end table_alias = model.dataset.schema_and_table(model.table_name)[1].to_sym ds = model.from(SQL::AliasedExpression.new(t, table_alias)). with_recursive(t, base_case, recursive_case, :args=>((key_aliases + col_aliases) if col_aliases)) ds = r.apply_eager_dataset_changes(ds) ds = ds.select_append(ka) unless ds.opts[:select] == nil model.eager_load_results(r, eo.merge(:loader=>false, :initalize_rows=>false, :dataset=>ds, :id_map=>nil)) do |obj| opk = prkey_conv[obj] if parent_map.has_key?(opk) if idm_obj = parent_map[opk] key_aliases.each{|ka_| idm_obj.values[ka_] = obj.values[ka_]} obj = idm_obj end else obj.associations[parent] = nil parent_map[opk] = obj (children_map[key_conv[obj]] ||= []) << obj end if roots = id_map[extract_key_alias[obj]] roots.each do |root| root.associations[ancestors] << obj end end end parent_map.each do |parent_id, obj| if children = children_map[parent_id] children.each do |child| child.associations[parent] = obj end end end end model.one_to_many ancestors, a d = opts.merge(opts.fetch(:descendants, {})) descendants = d.fetch(:name, :descendants) d[:read_only] = true unless d.has_key?(:read_only) la = d[:level_alias] ||= :x_level_x d[:dataset] ||= proc do base_ds = model.filter(key_array.zip(prkey_array.map{|k| get_column_value(k)})) recursive_ds = model.join(t, prkey_array.zip(key_array)) if c = d[:conditions] (base_ds, recursive_ds) = [base_ds, recursive_ds].collect do |ds| (c.is_a?(Array) && !Sequel.condition_specifier?(c)) ? ds.filter(*c) : ds.filter(c) end end table_alias = model.dataset.schema_and_table(model.table_name)[1].to_sym model.from(SQL::AliasedExpression.new(t, table_alias)). with_recursive(t, col_aliases ? base_ds.select(*col_aliases) : base_ds.select_all, recursive_ds.select(*c_all), :args=>col_aliases) end dal = Array(d[:after_load]) dal << proc do |m, descs| unless m.associations.has_key?(childrena) parent_map = {prkey_conv[m]=>m} children_map = {} m.associations[childrena] = [] descs.each do |obj| obj.associations[childrena] = [] if opk = prkey_conv[obj] parent_map[opk] = obj end if ok = key_conv[obj] (children_map[ok] ||= []) << obj end end children_map.each do |parent_id, objs| parent_map[parent_id].associations[childrena] = objs end end end d[:after_load] = dal d[:eager_loader] ||= proc do |eo| id_map = eo[:id_map] associations = eo[:associations] parent_map = {} children_map = {} eo[:rows].each do |obj| parent_map[prkey_conv[obj]] = obj obj.associations[descendants] = [] obj.associations[childrena] = [] end r = model.association_reflection(descendants) base_case = model.filter(key=>id_map.keys). select(*descendant_base_case_columns) recursive_case = model.join(t, prkey_array.zip(key_array)). select(*recursive_case_columns) if c = r[:conditions] (base_case, recursive_case) = [base_case, recursive_case].collect do |ds| (c.is_a?(Array) && !Sequel.condition_specifier?(c)) ? ds.filter(*c) : ds.filter(c) end end if associations.is_a?(Integer) level = associations no_cache_level = level - 1 associations = {} base_case = base_case.select_more(SQL::AliasedExpression.new(Sequel.cast(0, Integer), la)) recursive_case = recursive_case.select_more(SQL::AliasedExpression.new(SQL::QualifiedIdentifier.new(t, la) + 1, la)).filter(SQL::QualifiedIdentifier.new(t, la) < level - 1) end table_alias = model.dataset.schema_and_table(model.table_name)[1].to_sym ds = model.from(SQL::AliasedExpression.new(t, table_alias)). with_recursive(t, base_case, recursive_case, :args=>((key_aliases + col_aliases + (level ? [la] : [])) if col_aliases)) ds = r.apply_eager_dataset_changes(ds) ds = ds.select_append(ka) unless ds.opts[:select] == nil model.eager_load_results(r, eo.merge(:loader=>false, :initalize_rows=>false, :dataset=>ds, :id_map=>nil, :associations=>{})) do |obj| if level no_cache = no_cache_level == obj.values.delete(la) end opk = prkey_conv[obj] if parent_map.has_key?(opk) if idm_obj = parent_map[opk] key_aliases.each{|ka_| idm_obj.values[ka_] = obj.values[ka_]} obj = idm_obj end else obj.associations[childrena] = [] unless no_cache parent_map[opk] = obj end if root = id_map[extract_key_alias[obj]].first root.associations[descendants] << obj end (children_map[key_conv[obj]] ||= []) << obj end children_map.each do |parent_id, objs| parent_map[parent_id].associations[childrena] = objs.uniq end end model.one_to_many descendants, d end |