# frozen_string_literal: true require "abstract_unit" require "active_support/core_ext/hash" require "bigdecimal" require "active_support/core_ext/string/access" require "active_support/ordered_hash" require "active_support/core_ext/object/conversions" require "active_support/core_ext/object/deep_dup" require "active_support/inflections" class HashWithIndifferentAccessTest < ActiveSupport::TestCase HashWithIndifferentAccess = ActiveSupport::HashWithIndifferentAccess class IndifferentHash < ActiveSupport::HashWithIndifferentAccess end class SubclassingArray < Array end class SubclassingHash < Hash end class NonIndifferentHash < Hash def nested_under_indifferent_access self end end class HashByConversion def initialize(hash) @hash = hash end def to_hash @hash end end def setup @strings = { "a" => 1, "b" => 2 } @nested_strings = { "a" => { "b" => { "c" => 3 } } } @symbols = { a: 1, b: 2 } @nested_symbols = { a: { b: { c: 3 } } } @mixed = { :a => 1, "b" => 2 } @nested_mixed = { "a" => { b: { "c" => 3 } } } @integers = { 0 => 1, 1 => 2 } @nested_integers = { 0 => { 1 => { 2 => 3 } } } @illegal_symbols = { [] => 3 } @nested_illegal_symbols = { [] => { [] => 3 } } end def test_symbolize_keys_for_hash_with_indifferent_access assert_instance_of Hash, @symbols.with_indifferent_access.symbolize_keys assert_equal @symbols, @symbols.with_indifferent_access.symbolize_keys assert_equal @symbols, @strings.with_indifferent_access.symbolize_keys assert_equal @symbols, @mixed.with_indifferent_access.symbolize_keys end def test_to_options_for_hash_with_indifferent_access assert_instance_of Hash, @symbols.with_indifferent_access.to_options assert_equal @symbols, @symbols.with_indifferent_access.to_options assert_equal @symbols, @strings.with_indifferent_access.to_options assert_equal @symbols, @mixed.with_indifferent_access.to_options end def test_deep_symbolize_keys_for_hash_with_indifferent_access assert_instance_of Hash, @nested_symbols.with_indifferent_access.deep_symbolize_keys assert_equal @nested_symbols, @nested_symbols.with_indifferent_access.deep_symbolize_keys assert_equal @nested_symbols, @nested_strings.with_indifferent_access.deep_symbolize_keys assert_equal @nested_symbols, @nested_mixed.with_indifferent_access.deep_symbolize_keys end def test_symbolize_keys_bang_for_hash_with_indifferent_access assert_raise(NoMethodError) { @symbols.with_indifferent_access.dup.symbolize_keys! } assert_raise(NoMethodError) { @strings.with_indifferent_access.dup.symbolize_keys! } assert_raise(NoMethodError) { @mixed.with_indifferent_access.dup.symbolize_keys! } end def test_deep_symbolize_keys_bang_for_hash_with_indifferent_access assert_raise(NoMethodError) { @nested_symbols.with_indifferent_access.deep_dup.deep_symbolize_keys! } assert_raise(NoMethodError) { @nested_strings.with_indifferent_access.deep_dup.deep_symbolize_keys! } assert_raise(NoMethodError) { @nested_mixed.with_indifferent_access.deep_dup.deep_symbolize_keys! } end def test_symbolize_keys_preserves_keys_that_cant_be_symbolized_for_hash_with_indifferent_access assert_equal @illegal_symbols, @illegal_symbols.with_indifferent_access.symbolize_keys assert_raise(NoMethodError) { @illegal_symbols.with_indifferent_access.dup.symbolize_keys! } end def test_deep_symbolize_keys_preserves_keys_that_cant_be_symbolized_for_hash_with_indifferent_access assert_equal @nested_illegal_symbols, @nested_illegal_symbols.with_indifferent_access.deep_symbolize_keys assert_raise(NoMethodError) { @nested_illegal_symbols.with_indifferent_access.deep_dup.deep_symbolize_keys! } end def test_symbolize_keys_preserves_integer_keys_for_hash_with_indifferent_access assert_equal @integers, @integers.with_indifferent_access.symbolize_keys assert_raise(NoMethodError) { @integers.with_indifferent_access.dup.symbolize_keys! } end def test_deep_symbolize_keys_preserves_integer_keys_for_hash_with_indifferent_access assert_equal @nested_integers, @nested_integers.with_indifferent_access.deep_symbolize_keys assert_raise(NoMethodError) { @nested_integers.with_indifferent_access.deep_dup.deep_symbolize_keys! } end def test_stringify_keys_for_hash_with_indifferent_access assert_instance_of ActiveSupport::HashWithIndifferentAccess, @symbols.with_indifferent_access.stringify_keys assert_equal @strings, @symbols.with_indifferent_access.stringify_keys assert_equal @strings, @strings.with_indifferent_access.stringify_keys assert_equal @strings, @mixed.with_indifferent_access.stringify_keys end def test_deep_stringify_keys_for_hash_with_indifferent_access assert_instance_of ActiveSupport::HashWithIndifferentAccess, @nested_symbols.with_indifferent_access.deep_stringify_keys assert_equal @nested_strings, @nested_symbols.with_indifferent_access.deep_stringify_keys assert_equal @nested_strings, @nested_strings.with_indifferent_access.deep_stringify_keys assert_equal @nested_strings, @nested_mixed.with_indifferent_access.deep_stringify_keys end def test_stringify_keys_bang_for_hash_with_indifferent_access assert_instance_of ActiveSupport::HashWithIndifferentAccess, @symbols.with_indifferent_access.dup.stringify_keys! assert_equal @strings, @symbols.with_indifferent_access.dup.stringify_keys! assert_equal @strings, @strings.with_indifferent_access.dup.stringify_keys! assert_equal @strings, @mixed.with_indifferent_access.dup.stringify_keys! end def test_deep_stringify_keys_bang_for_hash_with_indifferent_access assert_instance_of ActiveSupport::HashWithIndifferentAccess, @nested_symbols.with_indifferent_access.dup.deep_stringify_keys! assert_equal @nested_strings, @nested_symbols.with_indifferent_access.deep_dup.deep_stringify_keys! assert_equal @nested_strings, @nested_strings.with_indifferent_access.deep_dup.deep_stringify_keys! assert_equal @nested_strings, @nested_mixed.with_indifferent_access.deep_dup.deep_stringify_keys! end def test_nested_under_indifferent_access foo = { "foo" => SubclassingHash.new.tap { |h| h["bar"] = "baz" } }.with_indifferent_access assert_kind_of ActiveSupport::HashWithIndifferentAccess, foo["foo"] foo = { "foo" => NonIndifferentHash.new.tap { |h| h["bar"] = "baz" } }.with_indifferent_access assert_kind_of NonIndifferentHash, foo["foo"] foo = { "foo" => IndifferentHash.new.tap { |h| h["bar"] = "baz" } }.with_indifferent_access assert_kind_of IndifferentHash, foo["foo"] end def test_indifferent_assorted @strings = @strings.with_indifferent_access @symbols = @symbols.with_indifferent_access @mixed = @mixed.with_indifferent_access assert_equal "a", @strings.__send__(:convert_key, :a) assert_equal 1, @strings.fetch("a") assert_equal 1, @strings.fetch(:a.to_s) assert_equal 1, @strings.fetch(:a) hashes = { :@strings => @strings, :@symbols => @symbols, :@mixed => @mixed } method_map = { '[]': 1, fetch: 1, values_at: [1], has_key?: true, include?: true, key?: true, member?: true } hashes.each do |name, hash| method_map.sort_by(&:to_s).each do |meth, expected| assert_equal(expected, hash.__send__(meth, "a"), "Calling #{name}.#{meth} 'a'") assert_equal(expected, hash.__send__(meth, :a), "Calling #{name}.#{meth} :a") end end assert_equal [1, 2], @strings.values_at("a", "b") assert_equal [1, 2], @strings.values_at(:a, :b) assert_equal [1, 2], @symbols.values_at("a", "b") assert_equal [1, 2], @symbols.values_at(:a, :b) assert_equal [1, 2], @mixed.values_at("a", "b") assert_equal [1, 2], @mixed.values_at(:a, :b) end def test_indifferent_fetch_values @mixed = @mixed.with_indifferent_access assert_equal [1, 2], @mixed.fetch_values("a", "b") assert_equal [1, 2], @mixed.fetch_values(:a, :b) assert_equal [1, 2], @mixed.fetch_values(:a, "b") assert_equal [1, "c"], @mixed.fetch_values(:a, :c) { |key| key } assert_raise(KeyError) { @mixed.fetch_values(:a, :c) } end def test_indifferent_reading hash = HashWithIndifferentAccess.new hash["a"] = 1 hash["b"] = true hash["c"] = false hash["d"] = nil assert_equal 1, hash[:a] assert_equal true, hash[:b] assert_equal false, hash[:c] assert_nil hash[:d] assert_nil hash[:e] end def test_indifferent_reading_with_nonnil_default hash = HashWithIndifferentAccess.new(1) hash["a"] = 1 hash["b"] = true hash["c"] = false hash["d"] = nil assert_equal 1, hash[:a] assert_equal true, hash[:b] assert_equal false, hash[:c] assert_nil hash[:d] assert_equal 1, hash[:e] end def test_indifferent_writing hash = HashWithIndifferentAccess.new hash[:a] = 1 hash["b"] = 2 hash[3] = 3 assert_equal 1, hash["a"] assert_equal 2, hash["b"] assert_equal 1, hash[:a] assert_equal 2, hash[:b] assert_equal 3, hash[3] end def test_indifferent_update hash = HashWithIndifferentAccess.new hash[:a] = "a" hash["b"] = "b" updated_with_strings = hash.update(@strings) updated_with_symbols = hash.update(@symbols) updated_with_mixed = hash.update(@mixed) assert_equal 1, updated_with_strings[:a] assert_equal 1, updated_with_strings["a"] assert_equal 2, updated_with_strings["b"] assert_equal 1, updated_with_symbols[:a] assert_equal 2, updated_with_symbols["b"] assert_equal 2, updated_with_symbols[:b] assert_equal 1, updated_with_mixed[:a] assert_equal 2, updated_with_mixed["b"] assert [updated_with_strings, updated_with_symbols, updated_with_mixed].all? { |h| h.keys.size == 2 } end def test_update_with_to_hash_conversion hash = HashWithIndifferentAccess.new hash.update HashByConversion.new(a: 1) assert_equal 1, hash["a"] end def test_indifferent_merging hash = HashWithIndifferentAccess.new hash[:a] = "failure" hash["b"] = "failure" other = { "a" => 1, :b => 2 } merged = hash.merge(other) assert_equal HashWithIndifferentAccess, merged.class assert_equal 1, merged[:a] assert_equal 2, merged["b"] hash.update(other) assert_equal 1, hash[:a] assert_equal 2, hash["b"] end def test_merge_with_to_hash_conversion hash = HashWithIndifferentAccess.new merged = hash.merge HashByConversion.new(a: 1) assert_equal 1, merged["a"] end def test_indifferent_replace hash = HashWithIndifferentAccess.new hash[:a] = 42 replaced = hash.replace(b: 12) assert hash.key?("b") assert_not hash.key?(:a) assert_equal 12, hash[:b] assert_same hash, replaced end def test_replace_with_to_hash_conversion hash = HashWithIndifferentAccess.new hash[:a] = 42 replaced = hash.replace(HashByConversion.new(b: 12)) assert hash.key?("b") assert_not hash.key?(:a) assert_equal 12, hash[:b] assert_same hash, replaced end def test_indifferent_merging_with_block hash = HashWithIndifferentAccess.new hash[:a] = 1 hash["b"] = 3 other = { "a" => 4, :b => 2, "c" => 10 } merged = hash.merge(other) { |key, old, new| old > new ? old : new } assert_equal HashWithIndifferentAccess, merged.class assert_equal 4, merged[:a] assert_equal 3, merged["b"] assert_equal 10, merged[:c] other_indifferent = HashWithIndifferentAccess.new("a" => 9, :b => 2) merged = hash.merge(other_indifferent) { |key, old, new| old + new } assert_equal HashWithIndifferentAccess, merged.class assert_equal 10, merged[:a] assert_equal 5, merged[:b] end def test_indifferent_reverse_merging hash = HashWithIndifferentAccess.new key: :old_value hash.reverse_merge! key: :new_value assert_equal :old_value, hash[:key] hash = HashWithIndifferentAccess.new("some" => "value", "other" => "value") hash.reverse_merge!(some: "noclobber", another: "clobber") assert_equal "value", hash[:some] assert_equal "clobber", hash[:another] end def test_indifferent_with_defaults_aliases_reverse_merge hash = HashWithIndifferentAccess.new key: :old_value actual = hash.with_defaults key: :new_value assert_equal :old_value, actual[:key] hash = HashWithIndifferentAccess.new key: :old_value hash.with_defaults! key: :new_value assert_equal :old_value, hash[:key] end def test_indifferent_deleting get_hash = proc { { a: "foo" }.with_indifferent_access } hash = get_hash.call assert_equal "foo", hash.delete(:a) assert_nil hash.delete(:a) hash = get_hash.call assert_equal "foo", hash.delete("a") assert_nil hash.delete("a") end def test_indifferent_select hash = ActiveSupport::HashWithIndifferentAccess.new(@strings).select { |k, v| v == 1 } assert_equal({ "a" => 1 }, hash) assert_instance_of ActiveSupport::HashWithIndifferentAccess, hash end def test_indifferent_select_returns_enumerator enum = ActiveSupport::HashWithIndifferentAccess.new(@strings).select assert_instance_of Enumerator, enum end def test_indifferent_select_returns_a_hash_when_unchanged hash = ActiveSupport::HashWithIndifferentAccess.new(@strings).select { |k, v| true } assert_instance_of ActiveSupport::HashWithIndifferentAccess, hash end def test_indifferent_select_bang indifferent_strings = ActiveSupport::HashWithIndifferentAccess.new(@strings) indifferent_strings.select! { |k, v| v == 1 } assert_equal({ "a" => 1 }, indifferent_strings) assert_instance_of ActiveSupport::HashWithIndifferentAccess, indifferent_strings end def test_indifferent_reject hash = ActiveSupport::HashWithIndifferentAccess.new(@strings).reject { |k, v| v != 1 } assert_equal({ "a" => 1 }, hash) assert_instance_of ActiveSupport::HashWithIndifferentAccess, hash end def test_indifferent_reject_returns_enumerator enum = ActiveSupport::HashWithIndifferentAccess.new(@strings).reject assert_instance_of Enumerator, enum end def test_indifferent_reject_bang indifferent_strings = ActiveSupport::HashWithIndifferentAccess.new(@strings) indifferent_strings.reject! { |k, v| v != 1 } assert_equal({ "a" => 1 }, indifferent_strings) assert_instance_of ActiveSupport::HashWithIndifferentAccess, indifferent_strings end def test_indifferent_transform_keys hash = ActiveSupport::HashWithIndifferentAccess.new(@strings).transform_keys { |k| k * 2 } assert_equal({ "aa" => 1, "bb" => 2 }, hash) assert_instance_of ActiveSupport::HashWithIndifferentAccess, hash hash = ActiveSupport::HashWithIndifferentAccess.new(@strings).transform_keys { |k| k.to_sym } assert_equal(1, hash[:a]) assert_equal(1, hash["a"]) assert_instance_of ActiveSupport::HashWithIndifferentAccess, hash end def test_indifferent_transform_keys_bang indifferent_strings = ActiveSupport::HashWithIndifferentAccess.new(@strings) indifferent_strings.transform_keys! { |k| k * 2 } assert_equal({ "aa" => 1, "bb" => 2 }, indifferent_strings) assert_instance_of ActiveSupport::HashWithIndifferentAccess, indifferent_strings indifferent_strings = ActiveSupport::HashWithIndifferentAccess.new(@strings) indifferent_strings.transform_keys! { |k| k.to_sym } assert_equal(1, indifferent_strings[:a]) assert_equal(1, indifferent_strings["a"]) assert_instance_of ActiveSupport::HashWithIndifferentAccess, indifferent_strings end def test_indifferent_transform_values hash = ActiveSupport::HashWithIndifferentAccess.new(@strings).transform_values { |v| v * 2 } assert_equal({ "a" => 2, "b" => 4 }, hash) assert_instance_of ActiveSupport::HashWithIndifferentAccess, hash end def test_indifferent_transform_values_bang indifferent_strings = ActiveSupport::HashWithIndifferentAccess.new(@strings) indifferent_strings.transform_values! { |v| v * 2 } assert_equal({ "a" => 2, "b" => 4 }, indifferent_strings) assert_instance_of ActiveSupport::HashWithIndifferentAccess, indifferent_strings end def test_indifferent_assoc indifferent_strings = ActiveSupport::HashWithIndifferentAccess.new(@strings) key, value = indifferent_strings.assoc(:a) assert_equal("a", key) assert_equal(1, value) end def test_indifferent_compact hash_contain_nil_value = @strings.merge("z" => nil) hash = ActiveSupport::HashWithIndifferentAccess.new(hash_contain_nil_value) compacted_hash = hash.compact assert_equal(@strings, compacted_hash) assert_equal(hash_contain_nil_value, hash) assert_instance_of ActiveSupport::HashWithIndifferentAccess, compacted_hash empty_hash = ActiveSupport::HashWithIndifferentAccess.new compacted_hash = empty_hash.compact assert_equal compacted_hash, empty_hash non_empty_hash = ActiveSupport::HashWithIndifferentAccess.new(foo: :bar) compacted_hash = non_empty_hash.compact assert_equal compacted_hash, non_empty_hash end def test_indifferent_to_hash # Should convert to a Hash with String keys. assert_equal @strings, @mixed.with_indifferent_access.to_hash # Should preserve the default value. mixed_with_default = @mixed.dup mixed_with_default.default = "1234" roundtrip = mixed_with_default.with_indifferent_access.to_hash assert_equal @strings, roundtrip assert_equal "1234", roundtrip.default # Ensure nested hashes are not HashWithIndifferentAccess new_to_hash = @nested_mixed.with_indifferent_access.to_hash assert_not new_to_hash.instance_of?(HashWithIndifferentAccess) assert_not new_to_hash["a"].instance_of?(HashWithIndifferentAccess) assert_not new_to_hash["a"]["b"].instance_of?(HashWithIndifferentAccess) end def test_lookup_returns_the_same_object_that_is_stored_in_hash_indifferent_access hash = HashWithIndifferentAccess.new { |h, k| h[k] = [] } hash[:a] << 1 assert_equal [1], hash[:a] end def test_with_indifferent_access_has_no_side_effects_on_existing_hash hash = { content: [{ :foo => :bar, "bar" => "baz" }] } hash.with_indifferent_access assert_equal [:foo, "bar"], hash[:content].first.keys end def test_indifferent_hash_with_array_of_hashes hash = { "urls" => { "url" => [ { "address" => "1" }, { "address" => "2" } ] } }.with_indifferent_access assert_equal "1", hash[:urls][:url].first[:address] hash = hash.to_hash assert_not hash.instance_of?(HashWithIndifferentAccess) assert_not hash["urls"].instance_of?(HashWithIndifferentAccess) assert_not hash["urls"]["url"].first.instance_of?(HashWithIndifferentAccess) end def test_should_preserve_array_subclass_when_value_is_array array = SubclassingArray.new array << { "address" => "1" } hash = { "urls" => { "url" => array } }.with_indifferent_access assert_equal SubclassingArray, hash[:urls][:url].class end def test_should_preserve_array_class_when_hash_value_is_frozen_array array = SubclassingArray.new array << { "address" => "1" } hash = { "urls" => { "url" => array.freeze } }.with_indifferent_access assert_equal SubclassingArray, hash[:urls][:url].class end def test_stringify_and_symbolize_keys_on_indifferent_preserves_hash h = HashWithIndifferentAccess.new h[:first] = 1 h = h.stringify_keys assert_equal 1, h["first"] h = HashWithIndifferentAccess.new h["first"] = 1 h = h.symbolize_keys assert_equal 1, h[:first] end def test_deep_stringify_and_deep_symbolize_keys_on_indifferent_preserves_hash h = HashWithIndifferentAccess.new h[:first] = 1 h = h.deep_stringify_keys assert_equal 1, h["first"] h = HashWithIndifferentAccess.new h["first"] = 1 h = h.deep_symbolize_keys assert_equal 1, h[:first] end def test_to_options_on_indifferent_preserves_hash h = HashWithIndifferentAccess.new h["first"] = 1 h.to_options! assert_equal 1, h["first"] end def test_to_options_on_indifferent_preserves_works_as_hash_with_dup h = HashWithIndifferentAccess.new(a: { b: "b" }) dup = h.dup dup[:a][:c] = "c" assert_equal "c", h[:a][:c] end def test_indifferent_sub_hashes h = { "user" => { "id" => 5 } }.with_indifferent_access ["user", :user].each { |user| [:id, "id"].each { |id| assert_equal 5, h[user][id], "h[#{user.inspect}][#{id.inspect}] should be 5" } } h = { user: { id: 5 } }.with_indifferent_access ["user", :user].each { |user| [:id, "id"].each { |id| assert_equal 5, h[user][id], "h[#{user.inspect}][#{id.inspect}] should be 5" } } end def test_indifferent_duplication # Should preserve default value h = HashWithIndifferentAccess.new h.default = "1234" assert_equal h.default, h.dup.default # Should preserve class for subclasses h = IndifferentHash.new assert_equal h.class, h.dup.class end def test_nested_dig_indifferent_access data = { "this" => { "views" => 1234 } }.with_indifferent_access assert_equal 1234, data.dig(:this, :views) end def test_argless_default_with_existing_nil_key h = Hash.new(:default).merge(nil => "defined").with_indifferent_access assert_equal :default, h.default end def test_default_with_argument h = Hash.new { 5 }.merge(1 => 2).with_indifferent_access assert_equal 5, h.default(1) end def test_default_proc h = ActiveSupport::HashWithIndifferentAccess.new { |hash, key| key } assert_nil h.default assert_equal "foo", h.default("foo") assert_equal "foo", h.default(:foo) end def test_double_conversion_with_nil_key h = { nil => "defined" }.with_indifferent_access.with_indifferent_access assert_nil h[:undefined_key] end def test_assorted_keys_not_stringified original = { Object.new => 2, 1 => 2, [] => true } indiff = original.with_indifferent_access assert_not(indiff.keys.any? { |k| k.kind_of? String }, "A key was converted to a string!") end def test_deep_merge_on_indifferent_access hash_1 = HashWithIndifferentAccess.new(a: "a", b: "b", c: { c1: "c1", c2: "c2", c3: { d1: "d1" } }) hash_2 = HashWithIndifferentAccess.new(a: 1, c: { c1: 2, c3: { d2: "d2" } }) hash_3 = { a: 1, c: { c1: 2, c3: { d2: "d2" } } } expected = { "a" => 1, "b" => "b", "c" => { "c1" => 2, "c2" => "c2", "c3" => { "d1" => "d1", "d2" => "d2" } } } assert_equal expected, hash_1.deep_merge(hash_2) assert_equal expected, hash_1.deep_merge(hash_3) hash_1.deep_merge!(hash_2) assert_equal expected, hash_1 end def test_store_on_indifferent_access hash = HashWithIndifferentAccess.new hash.store(:test1, 1) hash.store("test1", 11) hash[:test2] = 2 hash["test2"] = 22 expected = { "test1" => 11, "test2" => 22 } assert_equal expected, hash end def test_constructor_on_indifferent_access hash = HashWithIndifferentAccess[:foo, 1] assert_equal 1, hash[:foo] assert_equal 1, hash["foo"] hash[:foo] = 3 assert_equal 3, hash[:foo] assert_equal 3, hash["foo"] end def test_indifferent_slice original = { a: "x", b: "y", c: 10 }.with_indifferent_access expected = { a: "x", b: "y" }.with_indifferent_access [["a", "b"], [:a, :b]].each do |keys| # Should return a new hash with only the given keys. assert_equal expected, original.slice(*keys), keys.inspect assert_not_equal expected, original end end def test_indifferent_slice_inplace original = { a: "x", b: "y", c: 10 }.with_indifferent_access expected = { c: 10 }.with_indifferent_access [["a", "b"], [:a, :b]].each do |keys| # Should replace the hash with only the given keys. copy = original.dup assert_equal expected, copy.slice!(*keys) end end def test_indifferent_slice_access_with_symbols original = { "login" => "bender", "password" => "shiny", "stuff" => "foo" } original = original.with_indifferent_access slice = original.slice(:login, :password) assert_equal "bender", slice[:login] assert_equal "bender", slice["login"] end def test_indifferent_without original = { a: "x", b: "y", c: 10 }.with_indifferent_access expected = { c: 10 }.with_indifferent_access [["a", "b"], [:a, :b]].each do |keys| # Should return a new hash without the given keys. assert_equal expected, original.without(*keys), keys.inspect assert_not_equal expected, original end end def test_indifferent_extract original = { :a => 1, "b" => 2, :c => 3, "d" => 4 }.with_indifferent_access expected = { a: 1, b: 2 }.with_indifferent_access remaining = { c: 3, d: 4 }.with_indifferent_access [["a", "b"], [:a, :b]].each do |keys| copy = original.dup assert_equal expected, copy.extract!(*keys) assert_equal remaining, copy end end def test_new_with_to_hash_conversion hash = HashWithIndifferentAccess.new(HashByConversion.new(a: 1)) assert hash.key?("a") assert_equal 1, hash[:a] end def test_dup_with_default_proc hash = HashWithIndifferentAccess.new hash.default_proc = proc { |h, v| raise "walrus" } assert_nothing_raised { hash.dup } end def test_dup_with_default_proc_sets_proc hash = HashWithIndifferentAccess.new hash.default_proc = proc { |h, k| k + 1 } new_hash = hash.dup assert_equal 3, new_hash[2] new_hash.default = 2 assert_equal 2, new_hash[:non_existent] end def test_to_hash_with_raising_default_proc hash = HashWithIndifferentAccess.new hash.default_proc = proc { |h, k| raise "walrus" } assert_nothing_raised { hash.to_hash } end def test_new_with_to_hash_conversion_copies_default normal_hash = Hash.new(3) normal_hash[:a] = 1 hash = HashWithIndifferentAccess.new(HashByConversion.new(normal_hash)) assert_equal 1, hash[:a] assert_equal 3, hash[:b] end def test_new_with_to_hash_conversion_copies_default_proc normal_hash = Hash.new { 1 + 2 } normal_hash[:a] = 1 hash = HashWithIndifferentAccess.new(HashByConversion.new(normal_hash)) assert_equal 1, hash[:a] assert_equal 3, hash[:b] end def test_inheriting_from_top_level_hash_with_indifferent_access_preserves_ancestors_chain klass = Class.new(::HashWithIndifferentAccess) assert_equal ActiveSupport::HashWithIndifferentAccess, klass.ancestors[1] end def test_inheriting_from_hash_with_indifferent_access_properly_dumps_ivars klass = Class.new(::HashWithIndifferentAccess) do def initialize(*) @foo = "bar" super end end yaml_output = klass.new.to_yaml # `hash-with-ivars` was introduced in 2.0.9 (https://git.io/vyUQW) if Gem::Version.new(Psych::VERSION) >= Gem::Version.new("2.0.9") assert_includes yaml_output, "hash-with-ivars" assert_includes yaml_output, "@foo: bar" else assert_includes yaml_output, "hash" end end def test_should_use_default_proc_for_unknown_key hash_wia = HashWithIndifferentAccess.new { 1 + 2 } assert_equal 3, hash_wia[:new_key] end def test_should_return_nil_if_no_key_is_supplied hash_wia = HashWithIndifferentAccess.new { 1 + 2 } assert_nil hash_wia.default end def test_should_use_default_value_for_unknown_key hash_wia = HashWithIndifferentAccess.new(3) assert_equal 3, hash_wia[:new_key] end def test_should_use_default_value_if_no_key_is_supplied hash_wia = HashWithIndifferentAccess.new(3) assert_equal 3, hash_wia.default end def test_should_nil_if_no_default_value_is_supplied hash_wia = HashWithIndifferentAccess.new assert_nil hash_wia.default end def test_should_return_dup_for_with_indifferent_access hash_wia = HashWithIndifferentAccess.new assert_equal hash_wia, hash_wia.with_indifferent_access assert_not_same hash_wia, hash_wia.with_indifferent_access end def test_allows_setting_frozen_array_values_with_indifferent_access value = [1, 2, 3].freeze hash = HashWithIndifferentAccess.new hash[:key] = value assert_equal hash[:key], value end def test_should_copy_the_default_value_when_converting_to_hash_with_indifferent_access hash = Hash.new(3) hash_wia = hash.with_indifferent_access assert_equal 3, hash_wia.default end def test_should_copy_the_default_proc_when_converting_to_hash_with_indifferent_access hash = Hash.new do 2 + 1 end assert_equal 3, hash[:foo] hash_wia = hash.with_indifferent_access assert_equal 3, hash_wia[:foo] assert_equal 3, hash_wia[:bar] end def test_should_copy_the_default_when_converting_non_hash_to_hash_with_indifferent_access non_hash = Object.new def non_hash.to_hash h = { foo: :bar } h.default = :baz h end hash_wia = HashWithIndifferentAccess.new(non_hash) assert_equal :bar, hash_wia[:foo] assert_equal :baz, hash_wia[:missing] end def test_should_copy_the_default_proc_when_converting_non_hash_to_hash_with_indifferent_access non_hash = Object.new def non_hash.to_hash h = { foo: :bar } h.default_proc = ->(hash, key) { hash[key] = :baz } h end hash_wia = HashWithIndifferentAccess.new(non_hash) assert_equal :bar, hash_wia[:foo] assert_equal :baz, hash_wia[:missing] end end