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rails--rails/activerecord/test/cases/reflection_test.rb

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# frozen_string_literal: true
require "cases/helper"
require "models/topic"
require "models/customer"
require "models/company"
require "models/company_in_module"
require "models/ship"
require "models/pirate"
require "models/price_estimate"
require "models/essay"
require "models/author"
require "models/organization"
require "models/post"
require "models/tagging"
require "models/category"
require "models/book"
require "models/subscriber"
require "models/subscription"
require "models/tag"
require "models/sponsor"
require "models/edge"
require "models/hotel"
require "models/chef"
require "models/department"
require "models/cake_designer"
require "models/drink_designer"
require "models/recipe"
class ReflectionTest < ActiveRecord::TestCase
include ActiveRecord::Reflection
fixtures :topics, :customers, :companies, :subscribers, :price_estimates
def setup
@first = Topic.find(1)
end
def test_human_name
assert_equal "Price estimate", PriceEstimate.model_name.human
assert_equal "Subscriber", Subscriber.model_name.human
end
def test_read_attribute_names
assert_equal(
%w( id title author_name author_email_address bonus_time written_on last_read content important group approved replies_count unique_replies_count parent_id parent_title type created_at updated_at ).sort,
@first.attribute_names.sort
)
end
def test_columns
assert_equal 18, Topic.columns.length
end
def test_columns_are_returned_in_the_order_they_were_declared
column_names = Topic.columns.map(&:name)
assert_equal %w(id title author_name author_email_address written_on bonus_time last_read content important approved replies_count unique_replies_count parent_id parent_title type group created_at updated_at), column_names
end
def test_content_columns
content_columns = Topic.content_columns
content_column_names = content_columns.map(&:name)
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assert_equal 13, content_columns.length
assert_equal %w(title author_name author_email_address written_on bonus_time last_read content important group approved parent_title created_at updated_at).sort, content_column_names.sort
end
def test_column_string_type_and_limit
assert_equal :string, @first.column_for_attribute("title").type
assert_equal :string, @first.column_for_attribute(:title).type
assert_equal :string, @first.type_for_attribute("title").type
assert_equal :string, @first.type_for_attribute(:title).type
assert_equal 250, @first.column_for_attribute("title").limit
end
def test_column_null_not_null
subscriber = Subscriber.first
assert subscriber.column_for_attribute("name").null
assert_not subscriber.column_for_attribute("nick").null
end
def test_human_name_for_column
assert_equal "Author name", @first.column_for_attribute("author_name").human_name
end
def test_integer_columns
assert_equal :integer, @first.column_for_attribute("id").type
assert_equal :integer, @first.column_for_attribute(:id).type
assert_equal :integer, @first.type_for_attribute("id").type
assert_equal :integer, @first.type_for_attribute(:id).type
end
def test_non_existent_columns_return_null_object
column = @first.column_for_attribute("attribute_that_doesnt_exist")
assert_instance_of ActiveRecord::ConnectionAdapters::NullColumn, column
assert_equal "attribute_that_doesnt_exist", column.name
assert_nil column.sql_type
assert_nil column.type
column = @first.column_for_attribute(:attribute_that_doesnt_exist)
assert_instance_of ActiveRecord::ConnectionAdapters::NullColumn, column
end
def test_non_existent_types_are_identity_types
type = @first.type_for_attribute("attribute_that_doesnt_exist")
object = Object.new
assert_equal object, type.deserialize(object)
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assert_equal object, type.cast(object)
assert_equal object, type.serialize(object)
type = @first.type_for_attribute(:attribute_that_doesnt_exist)
assert_equal object, type.deserialize(object)
assert_equal object, type.cast(object)
assert_equal object, type.serialize(object)
end
def test_reflection_klass_for_nested_class_name
Cache results of computing model type We faced a significant performance decrease when we started using STI without storing full namespaced class name in type column (because of PostgreSQL length limit for ENUM types). We realized that the cause of it is the slow STI model instantiation. Problematic method appears to be `ActiveRecord::Base.compute_type`, which is used to find the right class for STI model on every instantiation. It builds an array of candidate types and then iterates through it calling `safe_constantize` on every type until it finds appropriate constant. So if desired type isn't the first element in this array there will be at least one unsuccessful call to `safe_constantize`, which is very expensive, since it's defined in terms of `begin; rescue; end`. This commit is an attempt to speed up `compute_type` method simply by caching results of previous calls. ```ruby class MyCompany::MyApp::Business::Accounts::Base < ApplicationRecord self.table_name = 'accounts' self.store_full_sti_class = false end class MyCompany::MyApp::Business::Accounts::Free < Base end class MyCompany::MyApp::Business::Accounts::Standard < Base # patch .compute_type there end puts '======================= .compute_type =======================' Benchmark.ips do |x| x.report("original method") do MyCompany::MyApp::Business::Accounts::Free.send :compute_type, 'Free' end x.report("with types cached") do MyCompany::MyApp::Business::Accounts::Standard.send :compute_type, 'Standard' end x.compare! end ``` ``` ======================= .compute_type ======================= with types cached: 1529019.4 i/s original method: 2850.2 i/s - 536.46x slower ``` ```ruby 5_000.times do |i| MyCompany::MyApp::Business::Accounts::Standard.create!(name: "standard_#{i}") end 5_000.times do |i| MyCompany::MyApp::Business::Accounts::Free.create!(name: "free_#{i}") end puts '====================== .limit(100).to_a =======================' Benchmark.ips do |x| x.report("without .compute_type patch") do MyCompany::MyApp::Business::Accounts::Free.limit(100).to_a end x.report("with .compute_type patch") do MyCompany::MyApp::Business::Accounts::Standard.limit(100).to_a end x.compare! end ``` ``` ====================== .limit(100).to_a ======================= with .compute_type patch: 360.5 i/s without .compute_type patch: 24.7 i/s - 14.59x slower ```
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reflection = ActiveRecord::Reflection.create(
:has_many,
nil,
nil,
{ class_name: "MyApplication::Business::Company" },
Customer
)
assert_nothing_raised do
assert_equal MyApplication::Business::Company, reflection.klass
end
end
def test_irregular_reflection_class_name
ActiveSupport::Inflector.inflections do |inflect|
inflect.irregular "plural_irregular", "plurales_irregulares"
end
reflection = ActiveRecord::Reflection.create(:has_many, "plurales_irregulares", nil, {}, ActiveRecord::Base)
assert_equal "PluralIrregular", reflection.class_name
end
def test_aggregation_reflection
reflection_for_address = AggregateReflection.new(
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:address, nil, { mapping: [ %w(address_street street), %w(address_city city), %w(address_country country) ] }, Customer
)
reflection_for_balance = AggregateReflection.new(
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:balance, nil, { class_name: "Money", mapping: %w(balance amount) }, Customer
)
reflection_for_gps_location = AggregateReflection.new(
:gps_location, nil, {}, Customer
)
assert_includes Customer.reflect_on_all_aggregations, reflection_for_gps_location
assert_includes Customer.reflect_on_all_aggregations, reflection_for_balance
assert_includes Customer.reflect_on_all_aggregations, reflection_for_address
assert_equal reflection_for_address, Customer.reflect_on_aggregation(:address)
assert_equal Address, Customer.reflect_on_aggregation(:address).klass
assert_equal Money, Customer.reflect_on_aggregation(:balance).klass
end
def test_reflect_on_all_autosave_associations
expected = Pirate.reflect_on_all_associations.select { |r| r.options[:autosave] }
received = Pirate.reflect_on_all_autosave_associations
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assert_not_empty received
assert_not_equal Pirate.reflect_on_all_associations.length, received.length
assert_equal expected, received
end
def test_has_many_reflection
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reflection_for_clients = ActiveRecord::Reflection.create(:has_many, :clients, nil, { order: "id", dependent: :destroy }, Firm)
assert_equal reflection_for_clients, Firm.reflect_on_association(:clients)
assert_equal Client, Firm.reflect_on_association(:clients).klass
assert_equal "companies", Firm.reflect_on_association(:clients).table_name
assert_equal Client, Firm.reflect_on_association(:clients_of_firm).klass
assert_equal "companies", Firm.reflect_on_association(:clients_of_firm).table_name
end
def test_has_one_reflection
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reflection_for_account = ActiveRecord::Reflection.create(:has_one, :account, nil, { foreign_key: "firm_id", dependent: :destroy }, Firm)
assert_equal reflection_for_account, Firm.reflect_on_association(:account)
assert_equal Account, Firm.reflect_on_association(:account).klass
assert_equal "accounts", Firm.reflect_on_association(:account).table_name
end
def test_belongs_to_inferred_foreign_key_from_assoc_name
Company.belongs_to :foo
assert_equal "foo_id", Company.reflect_on_association(:foo).foreign_key
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Company.belongs_to :bar, class_name: "Xyzzy"
assert_equal "bar_id", Company.reflect_on_association(:bar).foreign_key
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Company.belongs_to :baz, class_name: "Xyzzy", foreign_key: "xyzzy_id"
assert_equal "xyzzy_id", Company.reflect_on_association(:baz).foreign_key
end
def test_association_reflection_in_modules
ActiveRecord::Base.store_full_sti_class = false
assert_reflection MyApplication::Business::Firm,
:clients_of_firm,
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klass: MyApplication::Business::Client,
class_name: "Client",
table_name: "companies"
assert_reflection MyApplication::Billing::Account,
:firm,
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klass: MyApplication::Business::Firm,
class_name: "MyApplication::Business::Firm",
table_name: "companies"
assert_reflection MyApplication::Billing::Account,
:qualified_billing_firm,
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klass: MyApplication::Billing::Firm,
class_name: "MyApplication::Billing::Firm",
table_name: "companies"
assert_reflection MyApplication::Billing::Account,
:unqualified_billing_firm,
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klass: MyApplication::Billing::Firm,
class_name: "Firm",
table_name: "companies"
assert_reflection MyApplication::Billing::Account,
:nested_qualified_billing_firm,
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klass: MyApplication::Billing::Nested::Firm,
class_name: "MyApplication::Billing::Nested::Firm",
table_name: "companies"
assert_reflection MyApplication::Billing::Account,
:nested_unqualified_billing_firm,
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klass: MyApplication::Billing::Nested::Firm,
class_name: "Nested::Firm",
table_name: "companies"
ensure
ActiveRecord::Base.store_full_sti_class = true
end
def test_reflection_should_not_raise_error_when_compared_to_other_object
assert_not_equal Object.new, Firm._reflections["clients"]
end
def test_reflections_should_return_keys_as_strings
assert Category.reflections.keys.all? { |key| key.is_a? String }, "Model.reflections is expected to return string for keys"
end
def test_has_and_belongs_to_many_reflection
assert_equal :has_and_belongs_to_many, Category.reflections["posts"].macro
assert_equal :posts, Category.reflect_on_all_associations(:has_and_belongs_to_many).first.name
end
def test_has_many_through_reflection
assert_kind_of ThroughReflection, Subscriber.reflect_on_association(:books)
end
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def test_chain
expected = [
Organization.reflect_on_association(:author_essay_categories),
Author.reflect_on_association(:essays),
Organization.reflect_on_association(:authors)
]
actual = Organization.reflect_on_association(:author_essay_categories).chain
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assert_equal expected, actual
end
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def test_scope_chain_does_not_interfere_with_hmt_with_polymorphic_case
hotel = Hotel.create!
department = hotel.departments.create!
department.chefs.create!(employable: CakeDesigner.create!)
department.chefs.create!(employable: DrinkDesigner.create!)
assert_equal 1, hotel.cake_designers.size
assert_equal 1, hotel.cake_designers.count
assert_equal 1, hotel.drink_designers.size
assert_equal 1, hotel.drink_designers.count
assert_equal 2, hotel.chefs.size
assert_equal 2, hotel.chefs.count
end
def test_scope_chain_does_not_interfere_with_hmt_with_polymorphic_case_and_sti
hotel = Hotel.create!
hotel.mocktail_designers << MocktailDesigner.create!
assert_equal 1, hotel.mocktail_designers.size
assert_equal 1, hotel.mocktail_designers.count
assert_equal 1, hotel.chef_lists.size
assert_equal 1, hotel.chef_lists.count
hotel.mocktail_designers = []
assert_equal 0, hotel.mocktail_designers.size
assert_equal 0, hotel.mocktail_designers.count
assert_equal 0, hotel.chef_lists.size
assert_equal 0, hotel.chef_lists.count
end
Fix leaky chain on polymorphic association If there was a polymorphic hm:t association with a scope AND second non-scoped hm:t association on a model the polymorphic scope would leak through into the call for the non-polymorhic hm:t association. This would only break if `hotel.drink_designers` was called before `hotel.recipes`. If `hotel.recipes` was called first there would be no problem with the SQL. Before (employable_type should not be here): ``` SELECT COUNT(*) FROM "drink_designers" INNER JOIN "chefs" ON "drink_designers"."id" = "chefs"."employable_id" INNER JOIN "departments" ON "chefs"."department_id" = "departments"."id" WHERE "departments"."hotel_id" = ? AND "chefs"."employable_type" = ? [["hotel_id", 1], ["employable_type", "DrinkDesigner"]] ``` After: ``` SELECT COUNT(*) FROM "recipes" INNER JOIN "chefs" ON "recipes"."chef_id" = "chefs"."id" INNER JOIN "departments" ON "chefs"."department_id" = "departments"."id" WHERE "departments"."hotel_id" = ? [["hotel_id", 1]] ``` From the SQL you can see that `employable_type` was leaking through when calling recipes. The solution is to dup the chain of the polymorphic association so it doesn't get cached. Additionally, this follows `scope_chain` which dup's the `source_reflection`'s `scope_chain`. This required another model/table/relationship because the leak only happens on a hm:t polymorphic that's called before another hm:t on the same model. I am specifically testing the SQL here instead of the number of records becasue the test could pass if there was 1 drink designer recipe for the drink designer chef even though the `employable_type` was leaking through. This needs to specifically check that `employable_type` is not in the SQL statement.
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def test_scope_chain_of_polymorphic_association_does_not_leak_into_other_hmt_associations
hotel = Hotel.create!
department = hotel.departments.create!
drink = department.chefs.create!(employable: DrinkDesigner.create!)
Recipe.create!(chef_id: drink.id, hotel_id: hotel.id)
Fix leaky chain on polymorphic association If there was a polymorphic hm:t association with a scope AND second non-scoped hm:t association on a model the polymorphic scope would leak through into the call for the non-polymorhic hm:t association. This would only break if `hotel.drink_designers` was called before `hotel.recipes`. If `hotel.recipes` was called first there would be no problem with the SQL. Before (employable_type should not be here): ``` SELECT COUNT(*) FROM "drink_designers" INNER JOIN "chefs" ON "drink_designers"."id" = "chefs"."employable_id" INNER JOIN "departments" ON "chefs"."department_id" = "departments"."id" WHERE "departments"."hotel_id" = ? AND "chefs"."employable_type" = ? [["hotel_id", 1], ["employable_type", "DrinkDesigner"]] ``` After: ``` SELECT COUNT(*) FROM "recipes" INNER JOIN "chefs" ON "recipes"."chef_id" = "chefs"."id" INNER JOIN "departments" ON "chefs"."department_id" = "departments"."id" WHERE "departments"."hotel_id" = ? [["hotel_id", 1]] ``` From the SQL you can see that `employable_type` was leaking through when calling recipes. The solution is to dup the chain of the polymorphic association so it doesn't get cached. Additionally, this follows `scope_chain` which dup's the `source_reflection`'s `scope_chain`. This required another model/table/relationship because the leak only happens on a hm:t polymorphic that's called before another hm:t on the same model. I am specifically testing the SQL here instead of the number of records becasue the test could pass if there was 1 drink designer recipe for the drink designer chef even though the `employable_type` was leaking through. This needs to specifically check that `employable_type` is not in the SQL statement.
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expected_sql = capture_sql { hotel.recipes.to_a }
Hotel.reflect_on_association(:recipes).clear_association_scope_cache
hotel.reload
Fix leaky chain on polymorphic association If there was a polymorphic hm:t association with a scope AND second non-scoped hm:t association on a model the polymorphic scope would leak through into the call for the non-polymorhic hm:t association. This would only break if `hotel.drink_designers` was called before `hotel.recipes`. If `hotel.recipes` was called first there would be no problem with the SQL. Before (employable_type should not be here): ``` SELECT COUNT(*) FROM "drink_designers" INNER JOIN "chefs" ON "drink_designers"."id" = "chefs"."employable_id" INNER JOIN "departments" ON "chefs"."department_id" = "departments"."id" WHERE "departments"."hotel_id" = ? AND "chefs"."employable_type" = ? [["hotel_id", 1], ["employable_type", "DrinkDesigner"]] ``` After: ``` SELECT COUNT(*) FROM "recipes" INNER JOIN "chefs" ON "recipes"."chef_id" = "chefs"."id" INNER JOIN "departments" ON "chefs"."department_id" = "departments"."id" WHERE "departments"."hotel_id" = ? [["hotel_id", 1]] ``` From the SQL you can see that `employable_type` was leaking through when calling recipes. The solution is to dup the chain of the polymorphic association so it doesn't get cached. Additionally, this follows `scope_chain` which dup's the `source_reflection`'s `scope_chain`. This required another model/table/relationship because the leak only happens on a hm:t polymorphic that's called before another hm:t on the same model. I am specifically testing the SQL here instead of the number of records becasue the test could pass if there was 1 drink designer recipe for the drink designer chef even though the `employable_type` was leaking through. This needs to specifically check that `employable_type` is not in the SQL statement.
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hotel.drink_designers.to_a
loaded_sql = capture_sql { hotel.recipes.to_a }
assert_equal expected_sql, loaded_sql
Fix leaky chain on polymorphic association If there was a polymorphic hm:t association with a scope AND second non-scoped hm:t association on a model the polymorphic scope would leak through into the call for the non-polymorhic hm:t association. This would only break if `hotel.drink_designers` was called before `hotel.recipes`. If `hotel.recipes` was called first there would be no problem with the SQL. Before (employable_type should not be here): ``` SELECT COUNT(*) FROM "drink_designers" INNER JOIN "chefs" ON "drink_designers"."id" = "chefs"."employable_id" INNER JOIN "departments" ON "chefs"."department_id" = "departments"."id" WHERE "departments"."hotel_id" = ? AND "chefs"."employable_type" = ? [["hotel_id", 1], ["employable_type", "DrinkDesigner"]] ``` After: ``` SELECT COUNT(*) FROM "recipes" INNER JOIN "chefs" ON "recipes"."chef_id" = "chefs"."id" INNER JOIN "departments" ON "chefs"."department_id" = "departments"."id" WHERE "departments"."hotel_id" = ? [["hotel_id", 1]] ``` From the SQL you can see that `employable_type` was leaking through when calling recipes. The solution is to dup the chain of the polymorphic association so it doesn't get cached. Additionally, this follows `scope_chain` which dup's the `source_reflection`'s `scope_chain`. This required another model/table/relationship because the leak only happens on a hm:t polymorphic that's called before another hm:t on the same model. I am specifically testing the SQL here instead of the number of records becasue the test could pass if there was 1 drink designer recipe for the drink designer chef even though the `employable_type` was leaking through. This needs to specifically check that `employable_type` is not in the SQL statement.
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end
def test_nested?
assert_not_predicate Author.reflect_on_association(:comments), :nested?
assert_predicate Author.reflect_on_association(:tags), :nested?
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# Only goes :through once, but the through_reflection is a has_and_belongs_to_many, so this is
# a nested through association
assert_predicate Category.reflect_on_association(:post_comments), :nested?
end
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def test_association_primary_key
# Normal association
assert_equal "id", Author.reflect_on_association(:posts).association_primary_key.to_s
assert_equal "name", Author.reflect_on_association(:essay).association_primary_key.to_s
assert_equal "name", Essay.reflect_on_association(:writer).association_primary_key.to_s
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# Through association (uses the :primary_key option from the source reflection)
assert_equal "nick", Author.reflect_on_association(:subscribers).association_primary_key.to_s
assert_equal "name", Author.reflect_on_association(:essay_category).association_primary_key.to_s
assert_equal "custom_primary_key", Author.reflect_on_association(:tags_with_primary_key).association_primary_key.to_s # nested
end
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def test_association_primary_key_raises_when_missing_primary_key
Begin refactoring ThroughReflection This allows us to decouple AssociationReflection and ThroughReflection making ThroughReflection it's own Reflection bucket in a way. The benefit of this is to be able to remove checks against the macro's symbol for exmaple `macro == :belongs_to`. Get all tests passing again Some of the methods that used to be inherited from MacroReflection through AssociationReflection were no longer getting passed through. They needed to be duplicated into the ThroughReflection. I will extract these out into a separate class. Refactor shared methods into strategy object Now that we've separated ThroughReflection and AssociationReflection we can combine shared methods into one class to avoid duplication. Break out class for each type of reflection This creates a class for each reflection type (has_many, has_one, belongs_to and habtm). We then can remove the need to set the macro symbol in each initialization. Tests were updated to reflect these changes because creation of these reflections is now different. Remove need for @collection instance var We now define `collection?` as `false` by default and set it to `true` in `has_and_belongs_to_many` and `has_many` reflections. This removes the need for the `@collection` instance variable. Raise exception on unknown macro types We shouldn't accept just any macro when creating reflections. An unrecongnized AssociationReflection raises an error. Tests in `reflection_test` were updated to reflect these new changes. `:has_and_belongs_to_many` macro tests were removed because we no longer internally return HABTM.
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reflection = ActiveRecord::Reflection.create(:has_many, :edge, nil, {}, Author)
assert_raises(ActiveRecord::UnknownPrimaryKey) { reflection.association_primary_key }
through = Class.new(ActiveRecord::Reflection::ThroughReflection) {
define_method(:source_reflection) { reflection }
Begin refactoring ThroughReflection This allows us to decouple AssociationReflection and ThroughReflection making ThroughReflection it's own Reflection bucket in a way. The benefit of this is to be able to remove checks against the macro's symbol for exmaple `macro == :belongs_to`. Get all tests passing again Some of the methods that used to be inherited from MacroReflection through AssociationReflection were no longer getting passed through. They needed to be duplicated into the ThroughReflection. I will extract these out into a separate class. Refactor shared methods into strategy object Now that we've separated ThroughReflection and AssociationReflection we can combine shared methods into one class to avoid duplication. Break out class for each type of reflection This creates a class for each reflection type (has_many, has_one, belongs_to and habtm). We then can remove the need to set the macro symbol in each initialization. Tests were updated to reflect these changes because creation of these reflections is now different. Remove need for @collection instance var We now define `collection?` as `false` by default and set it to `true` in `has_and_belongs_to_many` and `has_many` reflections. This removes the need for the `@collection` instance variable. Raise exception on unknown macro types We shouldn't accept just any macro when creating reflections. An unrecongnized AssociationReflection raises an error. Tests in `reflection_test` were updated to reflect these new changes. `:has_and_belongs_to_many` macro tests were removed because we no longer internally return HABTM.
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}.new(reflection)
assert_raises(ActiveRecord::UnknownPrimaryKey) { through.association_primary_key }
end
def test_active_record_primary_key
assert_equal "nick", Subscriber.reflect_on_association(:subscriptions).active_record_primary_key.to_s
assert_equal "name", Author.reflect_on_association(:essay).active_record_primary_key.to_s
end
def test_active_record_primary_key_raises_when_missing_primary_key
Begin refactoring ThroughReflection This allows us to decouple AssociationReflection and ThroughReflection making ThroughReflection it's own Reflection bucket in a way. The benefit of this is to be able to remove checks against the macro's symbol for exmaple `macro == :belongs_to`. Get all tests passing again Some of the methods that used to be inherited from MacroReflection through AssociationReflection were no longer getting passed through. They needed to be duplicated into the ThroughReflection. I will extract these out into a separate class. Refactor shared methods into strategy object Now that we've separated ThroughReflection and AssociationReflection we can combine shared methods into one class to avoid duplication. Break out class for each type of reflection This creates a class for each reflection type (has_many, has_one, belongs_to and habtm). We then can remove the need to set the macro symbol in each initialization. Tests were updated to reflect these changes because creation of these reflections is now different. Remove need for @collection instance var We now define `collection?` as `false` by default and set it to `true` in `has_and_belongs_to_many` and `has_many` reflections. This removes the need for the `@collection` instance variable. Raise exception on unknown macro types We shouldn't accept just any macro when creating reflections. An unrecongnized AssociationReflection raises an error. Tests in `reflection_test` were updated to reflect these new changes. `:has_and_belongs_to_many` macro tests were removed because we no longer internally return HABTM.
2014-06-09 18:45:29 -04:00
reflection = ActiveRecord::Reflection.create(:has_many, :author, nil, {}, Edge)
assert_raises(ActiveRecord::UnknownPrimaryKey) { reflection.active_record_primary_key }
end
def test_type
assert_equal "taggable_type", Post.reflect_on_association(:taggings).type.to_s
assert_equal "imageable_class", Post.reflect_on_association(:images).type.to_s
assert_nil Post.reflect_on_association(:readers).type
end
def test_foreign_type
assert_equal "sponsorable_type", Sponsor.reflect_on_association(:sponsorable).foreign_type.to_s
assert_equal "sponsorable_type", Sponsor.reflect_on_association(:thing).foreign_type.to_s
assert_nil Sponsor.reflect_on_association(:sponsor_club).foreign_type
end
def test_collection_association
assert_predicate Pirate.reflect_on_association(:birds), :collection?
assert_predicate Pirate.reflect_on_association(:parrots), :collection?
assert_not_predicate Pirate.reflect_on_association(:ship), :collection?
assert_not_predicate Ship.reflect_on_association(:pirate), :collection?
end
def test_default_association_validation
assert_predicate ActiveRecord::Reflection.create(:has_many, :clients, nil, {}, Firm), :validate?
assert_not_predicate ActiveRecord::Reflection.create(:has_one, :client, nil, {}, Firm), :validate?
assert_not_predicate ActiveRecord::Reflection.create(:belongs_to, :client, nil, {}, Firm), :validate?
end
def test_always_validate_association_if_explicit
assert_predicate ActiveRecord::Reflection.create(:has_one, :client, nil, { validate: true }, Firm), :validate?
assert_predicate ActiveRecord::Reflection.create(:belongs_to, :client, nil, { validate: true }, Firm), :validate?
assert_predicate ActiveRecord::Reflection.create(:has_many, :clients, nil, { validate: true }, Firm), :validate?
end
def test_validate_association_if_autosave
assert_predicate ActiveRecord::Reflection.create(:has_one, :client, nil, { autosave: true }, Firm), :validate?
assert_predicate ActiveRecord::Reflection.create(:belongs_to, :client, nil, { autosave: true }, Firm), :validate?
assert_predicate ActiveRecord::Reflection.create(:has_many, :clients, nil, { autosave: true }, Firm), :validate?
end
def test_never_validate_association_if_explicit
assert_not_predicate ActiveRecord::Reflection.create(:has_one, :client, nil, { autosave: true, validate: false }, Firm), :validate?
assert_not_predicate ActiveRecord::Reflection.create(:belongs_to, :client, nil, { autosave: true, validate: false }, Firm), :validate?
assert_not_predicate ActiveRecord::Reflection.create(:has_many, :clients, nil, { autosave: true, validate: false }, Firm), :validate?
end
def test_foreign_key
assert_equal "author_id", Author.reflect_on_association(:posts).foreign_key.to_s
assert_equal "category_id", Post.reflect_on_association(:categorizations).foreign_key.to_s
end
def test_symbol_for_class_name
assert_equal Client, Firm.reflect_on_association(:unsorted_clients_with_symbol).klass
end
def test_class_for_class_name
error = assert_raises(ArgumentError) do
ActiveRecord::Reflection.create(:has_many, :clients, nil, { class_name: Client }, Firm)
end
assert_equal "A class was passed to `:class_name` but we are expecting a string.", error.message
end
def test_join_table
category = Struct.new(:table_name, :pluralize_table_names).new("categories", true)
product = Struct.new(:table_name, :pluralize_table_names).new("products", true)
Begin refactoring ThroughReflection This allows us to decouple AssociationReflection and ThroughReflection making ThroughReflection it's own Reflection bucket in a way. The benefit of this is to be able to remove checks against the macro's symbol for exmaple `macro == :belongs_to`. Get all tests passing again Some of the methods that used to be inherited from MacroReflection through AssociationReflection were no longer getting passed through. They needed to be duplicated into the ThroughReflection. I will extract these out into a separate class. Refactor shared methods into strategy object Now that we've separated ThroughReflection and AssociationReflection we can combine shared methods into one class to avoid duplication. Break out class for each type of reflection This creates a class for each reflection type (has_many, has_one, belongs_to and habtm). We then can remove the need to set the macro symbol in each initialization. Tests were updated to reflect these changes because creation of these reflections is now different. Remove need for @collection instance var We now define `collection?` as `false` by default and set it to `true` in `has_and_belongs_to_many` and `has_many` reflections. This removes the need for the `@collection` instance variable. Raise exception on unknown macro types We shouldn't accept just any macro when creating reflections. An unrecongnized AssociationReflection raises an error. Tests in `reflection_test` were updated to reflect these new changes. `:has_and_belongs_to_many` macro tests were removed because we no longer internally return HABTM.
2014-06-09 18:45:29 -04:00
reflection = ActiveRecord::Reflection.create(:has_many, :categories, nil, {}, product)
reflection.stub(:klass, category) do
assert_equal "categories_products", reflection.join_table
end
Begin refactoring ThroughReflection This allows us to decouple AssociationReflection and ThroughReflection making ThroughReflection it's own Reflection bucket in a way. The benefit of this is to be able to remove checks against the macro's symbol for exmaple `macro == :belongs_to`. Get all tests passing again Some of the methods that used to be inherited from MacroReflection through AssociationReflection were no longer getting passed through. They needed to be duplicated into the ThroughReflection. I will extract these out into a separate class. Refactor shared methods into strategy object Now that we've separated ThroughReflection and AssociationReflection we can combine shared methods into one class to avoid duplication. Break out class for each type of reflection This creates a class for each reflection type (has_many, has_one, belongs_to and habtm). We then can remove the need to set the macro symbol in each initialization. Tests were updated to reflect these changes because creation of these reflections is now different. Remove need for @collection instance var We now define `collection?` as `false` by default and set it to `true` in `has_and_belongs_to_many` and `has_many` reflections. This removes the need for the `@collection` instance variable. Raise exception on unknown macro types We shouldn't accept just any macro when creating reflections. An unrecongnized AssociationReflection raises an error. Tests in `reflection_test` were updated to reflect these new changes. `:has_and_belongs_to_many` macro tests were removed because we no longer internally return HABTM.
2014-06-09 18:45:29 -04:00
reflection = ActiveRecord::Reflection.create(:has_many, :products, nil, {}, category)
reflection.stub(:klass, product) do
assert_equal "categories_products", reflection.join_table
end
end
def test_join_table_with_common_prefix
category = Struct.new(:table_name, :pluralize_table_names).new("catalog_categories", true)
product = Struct.new(:table_name, :pluralize_table_names).new("catalog_products", true)
Begin refactoring ThroughReflection This allows us to decouple AssociationReflection and ThroughReflection making ThroughReflection it's own Reflection bucket in a way. The benefit of this is to be able to remove checks against the macro's symbol for exmaple `macro == :belongs_to`. Get all tests passing again Some of the methods that used to be inherited from MacroReflection through AssociationReflection were no longer getting passed through. They needed to be duplicated into the ThroughReflection. I will extract these out into a separate class. Refactor shared methods into strategy object Now that we've separated ThroughReflection and AssociationReflection we can combine shared methods into one class to avoid duplication. Break out class for each type of reflection This creates a class for each reflection type (has_many, has_one, belongs_to and habtm). We then can remove the need to set the macro symbol in each initialization. Tests were updated to reflect these changes because creation of these reflections is now different. Remove need for @collection instance var We now define `collection?` as `false` by default and set it to `true` in `has_and_belongs_to_many` and `has_many` reflections. This removes the need for the `@collection` instance variable. Raise exception on unknown macro types We shouldn't accept just any macro when creating reflections. An unrecongnized AssociationReflection raises an error. Tests in `reflection_test` were updated to reflect these new changes. `:has_and_belongs_to_many` macro tests were removed because we no longer internally return HABTM.
2014-06-09 18:45:29 -04:00
reflection = ActiveRecord::Reflection.create(:has_many, :categories, nil, {}, product)
reflection.stub(:klass, category) do
assert_equal "catalog_categories_products", reflection.join_table
end
Begin refactoring ThroughReflection This allows us to decouple AssociationReflection and ThroughReflection making ThroughReflection it's own Reflection bucket in a way. The benefit of this is to be able to remove checks against the macro's symbol for exmaple `macro == :belongs_to`. Get all tests passing again Some of the methods that used to be inherited from MacroReflection through AssociationReflection were no longer getting passed through. They needed to be duplicated into the ThroughReflection. I will extract these out into a separate class. Refactor shared methods into strategy object Now that we've separated ThroughReflection and AssociationReflection we can combine shared methods into one class to avoid duplication. Break out class for each type of reflection This creates a class for each reflection type (has_many, has_one, belongs_to and habtm). We then can remove the need to set the macro symbol in each initialization. Tests were updated to reflect these changes because creation of these reflections is now different. Remove need for @collection instance var We now define `collection?` as `false` by default and set it to `true` in `has_and_belongs_to_many` and `has_many` reflections. This removes the need for the `@collection` instance variable. Raise exception on unknown macro types We shouldn't accept just any macro when creating reflections. An unrecongnized AssociationReflection raises an error. Tests in `reflection_test` were updated to reflect these new changes. `:has_and_belongs_to_many` macro tests were removed because we no longer internally return HABTM.
2014-06-09 18:45:29 -04:00
reflection = ActiveRecord::Reflection.create(:has_many, :products, nil, {}, category)
reflection.stub(:klass, product) do
assert_equal "catalog_categories_products", reflection.join_table
end
end
def test_join_table_with_different_prefix
category = Struct.new(:table_name, :pluralize_table_names).new("catalog_categories", true)
page = Struct.new(:table_name, :pluralize_table_names).new("content_pages", true)
Begin refactoring ThroughReflection This allows us to decouple AssociationReflection and ThroughReflection making ThroughReflection it's own Reflection bucket in a way. The benefit of this is to be able to remove checks against the macro's symbol for exmaple `macro == :belongs_to`. Get all tests passing again Some of the methods that used to be inherited from MacroReflection through AssociationReflection were no longer getting passed through. They needed to be duplicated into the ThroughReflection. I will extract these out into a separate class. Refactor shared methods into strategy object Now that we've separated ThroughReflection and AssociationReflection we can combine shared methods into one class to avoid duplication. Break out class for each type of reflection This creates a class for each reflection type (has_many, has_one, belongs_to and habtm). We then can remove the need to set the macro symbol in each initialization. Tests were updated to reflect these changes because creation of these reflections is now different. Remove need for @collection instance var We now define `collection?` as `false` by default and set it to `true` in `has_and_belongs_to_many` and `has_many` reflections. This removes the need for the `@collection` instance variable. Raise exception on unknown macro types We shouldn't accept just any macro when creating reflections. An unrecongnized AssociationReflection raises an error. Tests in `reflection_test` were updated to reflect these new changes. `:has_and_belongs_to_many` macro tests were removed because we no longer internally return HABTM.
2014-06-09 18:45:29 -04:00
reflection = ActiveRecord::Reflection.create(:has_many, :categories, nil, {}, page)
reflection.stub(:klass, category) do
assert_equal "catalog_categories_content_pages", reflection.join_table
end
Begin refactoring ThroughReflection This allows us to decouple AssociationReflection and ThroughReflection making ThroughReflection it's own Reflection bucket in a way. The benefit of this is to be able to remove checks against the macro's symbol for exmaple `macro == :belongs_to`. Get all tests passing again Some of the methods that used to be inherited from MacroReflection through AssociationReflection were no longer getting passed through. They needed to be duplicated into the ThroughReflection. I will extract these out into a separate class. Refactor shared methods into strategy object Now that we've separated ThroughReflection and AssociationReflection we can combine shared methods into one class to avoid duplication. Break out class for each type of reflection This creates a class for each reflection type (has_many, has_one, belongs_to and habtm). We then can remove the need to set the macro symbol in each initialization. Tests were updated to reflect these changes because creation of these reflections is now different. Remove need for @collection instance var We now define `collection?` as `false` by default and set it to `true` in `has_and_belongs_to_many` and `has_many` reflections. This removes the need for the `@collection` instance variable. Raise exception on unknown macro types We shouldn't accept just any macro when creating reflections. An unrecongnized AssociationReflection raises an error. Tests in `reflection_test` were updated to reflect these new changes. `:has_and_belongs_to_many` macro tests were removed because we no longer internally return HABTM.
2014-06-09 18:45:29 -04:00
reflection = ActiveRecord::Reflection.create(:has_many, :pages, nil, {}, category)
reflection.stub(:klass, page) do
assert_equal "catalog_categories_content_pages", reflection.join_table
end
end
def test_join_table_can_be_overridden
category = Struct.new(:table_name, :pluralize_table_names).new("categories", true)
product = Struct.new(:table_name, :pluralize_table_names).new("products", true)
2016-08-06 13:37:57 -04:00
reflection = ActiveRecord::Reflection.create(:has_many, :categories, nil, { join_table: "product_categories" }, product)
reflection.stub(:klass, category) do
assert_equal "product_categories", reflection.join_table
end
2016-08-06 13:37:57 -04:00
reflection = ActiveRecord::Reflection.create(:has_many, :products, nil, { join_table: "product_categories" }, category)
reflection.stub(:klass, product) do
assert_equal "product_categories", reflection.join_table
end
end
def test_includes_accepts_symbols
hotel = Hotel.create!
department = hotel.departments.create!
department.chefs.create!
assert_nothing_raised do
assert_equal department.chefs, Hotel.includes([departments: :chefs]).first.chefs
end
end
def test_includes_accepts_strings
hotel = Hotel.create!
department = hotel.departments.create!
department.chefs.create!
assert_nothing_raised do
assert_equal department.chefs, Hotel.includes(["departments" => "chefs"]).first.chefs
end
end
def test_reflect_on_association_accepts_symbols
assert_nothing_raised do
assert_equal Hotel.reflect_on_association(:departments).name, :departments
end
end
def test_reflect_on_association_accepts_strings
assert_nothing_raised do
assert_equal Hotel.reflect_on_association("departments").name, :departments
end
end
private
def assert_reflection(klass, association, options)
assert reflection = klass.reflect_on_association(association)
options.each do |method, value|
assert_equal(value, reflection.send(method))
end
end
end