# frozen_string_literal: true module ActiveRecord class PredicateBuilder # :nodoc: require "active_record/relation/predicate_builder/array_handler" require "active_record/relation/predicate_builder/basic_object_handler" require "active_record/relation/predicate_builder/range_handler" require "active_record/relation/predicate_builder/relation_handler" require "active_record/relation/predicate_builder/association_query_value" require "active_record/relation/predicate_builder/polymorphic_array_value" def initialize(table) @table = table @handlers = [] register_handler(BasicObject, BasicObjectHandler.new(self)) register_handler(Range, RangeHandler.new(self)) register_handler(Relation, RelationHandler.new) register_handler(Array, ArrayHandler.new(self)) register_handler(Set, ArrayHandler.new(self)) end def build_from_hash(attributes, &block) attributes = convert_dot_notation_to_hash(attributes) expand_from_hash(attributes, &block) end def self.references(attributes) attributes.each_with_object([]) do |(key, value), result| if value.is_a?(Hash) result << Arel.sql(key, retryable: true) elsif (idx = key.rindex(".")) result << Arel.sql(key[0, idx], retryable: true) end end end # Define how a class is converted to Arel nodes when passed to +where+. # The handler can be any object that responds to +call+, and will be used # for any value that +===+ the class given. For example: # # MyCustomDateRange = Struct.new(:start, :end) # handler = proc do |column, range| # Arel::Nodes::Between.new(column, # Arel::Nodes::And.new([range.start, range.end]) # ) # end # ActiveRecord::PredicateBuilder.new("users").register_handler(MyCustomDateRange, handler) def register_handler(klass, handler) @handlers.unshift([klass, handler]) end def [](attr_name, value, operator = nil) build(table.arel_table[attr_name], value, operator) end def build(attribute, value, operator = nil) value = value.id if value.respond_to?(:id) if operator ||= table.type(attribute.name).force_equality?(value) && :eq bind = build_bind_attribute(attribute.name, value) attribute.public_send(operator, bind) else handler_for(value).call(attribute, value) end end def build_bind_attribute(column_name, value) Relation::QueryAttribute.new(column_name, value, table.type(column_name)) end def resolve_arel_attribute(table_name, column_name, &block) table.associated_table(table_name, &block).arel_table[column_name] end def with(table) other = dup other.table = table other end protected attr_writer :table def expand_from_hash(attributes, &block) return ["1=0"] if attributes.empty? attributes.flat_map do |key, value| if key.is_a?(Array) && key.size == 1 key = key.first value = value.flatten end if key.is_a?(Array) queries = Array(value).map do |ids_set| raise ArgumentError, "Expected corresponding value for #{key} to be an Array" unless ids_set.is_a?(Array) expand_from_hash(key.zip(ids_set).to_h) end grouping_queries(queries) elsif value.is_a?(Hash) && !table.has_column?(key) table.associated_table(key, &block) .predicate_builder.expand_from_hash(value.stringify_keys) elsif table.associated_with?(key) # Find the foreign key when using queries such as: # Post.where(author: author) # # For polymorphic relationships, find the foreign key and type: # PriceEstimate.where(estimate_of: treasure) associated_table = table.associated_table(key) if associated_table.polymorphic_association? value = [value] unless value.is_a?(Array) klass = PolymorphicArrayValue elsif associated_table.through_association? next associated_table.predicate_builder.expand_from_hash( associated_table.primary_key => value ) end klass ||= AssociationQueryValue queries = klass.new(associated_table, value).queries.map! do |query| # If the query produced is identical to attributes don't go any deeper. # Prevents stack level too deep errors when association and foreign_key are identical. query == attributes ? self[key, value] : expand_from_hash(query) end grouping_queries(queries) elsif table.aggregated_with?(key) mapping = table.reflect_on_aggregation(key).mapping values = value.nil? ? [nil] : Array.wrap(value) if mapping.length == 1 || values.empty? column_name, aggr_attr = mapping.first values = values.map do |object| object.respond_to?(aggr_attr) ? object.public_send(aggr_attr) : object end self[column_name, values] else queries = values.map do |object| mapping.map do |field_attr, aggregate_attr| self[field_attr, object.try!(aggregate_attr)] end end grouping_queries(queries) end else self[key, value] end end end private attr_reader :table def grouping_queries(queries) if queries.one? queries.first else queries.map! { |query| query.reduce(&:and) } queries = Arel::Nodes::Or.new(queries) Arel::Nodes::Grouping.new(queries) end end def convert_dot_notation_to_hash(attributes) attributes.each_with_object({}) do |(key, value), converted| if value.is_a?(Hash) if (existing = converted[key]) existing.merge!(value) else converted[key] = value.dup end elsif (idx = key.rindex(".")) table_name, column_name = key[0, idx], key[idx + 1, key.length] if (existing = converted[table_name]) existing[column_name] = value else converted[table_name] = { column_name => value } end else converted[key] = value end end end def handler_for(object) @handlers.detect { |klass, _| klass === object }.last end end end