#!/usr/bin/ruby require 'google/protobuf' require 'test/unit' class RepeatedFieldTest < Test::Unit::TestCase def test_acts_like_enumerator m = TestMessage.new (Enumerable.instance_methods - TestMessage.new.repeated_string.methods).each do |method_name| assert m.repeated_string.respond_to?(method_name) == true, "does not respond to #{method_name}" end end def test_acts_like_an_array m = TestMessage.new arr_methods = ([].methods - TestMessage.new.repeated_string.methods) # jRuby additions to the Array class that we can ignore arr_methods -= [ :indices, :iter_for_each, :iter_for_each_index, :iter_for_each_with_index, :dimensions, :copy_data, :copy_data_simple, :nitems, :iter_for_reverse_each, :indexes, :append, :prepend] arr_methods -= [:union, :difference, :filter!] arr_methods -= [:intersection, :deconstruct] # ruby 2.7 methods we can ignore arr_methods.each do |method_name| assert m.repeated_string.respond_to?(method_name) == true, "does not respond to #{method_name}" end end def test_first m = TestMessage.new repeated_field_names(TestMessage).each do |field_name| assert_nil m.send(field_name).first end fill_test_msg(m) assert_equal -10, m.repeated_int32.first assert_equal -1_000_000, m.repeated_int64.first assert_equal 10, m.repeated_uint32.first assert_equal 1_000_000, m.repeated_uint64.first assert_equal true, m.repeated_bool.first assert_equal -1.01, m.repeated_float.first.round(2) assert_equal -1.0000000000001, m.repeated_double.first assert_equal 'foo', m.repeated_string.first assert_equal "bar".encode!('ASCII-8BIT'), m.repeated_bytes.first assert_equal TestMessage2.new(:foo => 1), m.repeated_msg.first assert_equal :A, m.repeated_enum.first end def test_last m = TestMessage.new repeated_field_names(TestMessage).each do |field_name| assert_nil m.send(field_name).first end fill_test_msg(m) assert_equal -11, m.repeated_int32.last assert_equal -1_000_001, m.repeated_int64.last assert_equal 11, m.repeated_uint32.last assert_equal 1_000_001, m.repeated_uint64.last assert_equal false, m.repeated_bool.last assert_equal -1.02, m.repeated_float.last.round(2) assert_equal -1.0000000000002, m.repeated_double.last assert_equal 'bar', m.repeated_string.last assert_equal "foo".encode!('ASCII-8BIT'), m.repeated_bytes.last assert_equal TestMessage2.new(:foo => 2), m.repeated_msg.last assert_equal :B, m.repeated_enum.last end def test_pop m = TestMessage.new repeated_field_names(TestMessage).each do |field_name| assert_nil m.send(field_name).pop end fill_test_msg(m) assert_equal -11, m.repeated_int32.pop assert_equal -10, m.repeated_int32.pop assert_equal -1_000_001, m.repeated_int64.pop assert_equal -1_000_000, m.repeated_int64.pop assert_equal 11, m.repeated_uint32.pop assert_equal 10, m.repeated_uint32.pop assert_equal 1_000_001, m.repeated_uint64.pop assert_equal 1_000_000, m.repeated_uint64.pop assert_equal false, m.repeated_bool.pop assert_equal true, m.repeated_bool.pop assert_equal -1.02, m.repeated_float.pop.round(2) assert_equal -1.01, m.repeated_float.pop.round(2) assert_equal -1.0000000000002, m.repeated_double.pop assert_equal -1.0000000000001, m.repeated_double.pop assert_equal 'bar', m.repeated_string.pop assert_equal 'foo', m.repeated_string.pop assert_equal "foo".encode!('ASCII-8BIT'), m.repeated_bytes.pop assert_equal "bar".encode!('ASCII-8BIT'), m.repeated_bytes.pop assert_equal TestMessage2.new(:foo => 2), m.repeated_msg.pop assert_equal TestMessage2.new(:foo => 1), m.repeated_msg.pop assert_equal :B, m.repeated_enum.pop assert_equal :A, m.repeated_enum.pop repeated_field_names(TestMessage).each do |field_name| assert_nil m.send(field_name).pop end fill_test_msg(m) assert_equal ['bar', 'foo'], m.repeated_string.pop(2) assert_nil m.repeated_string.pop end def test_each m = TestMessage.new 5.times{|i| m.repeated_string << 'string' } count = 0 m.repeated_string.each do |val| assert_equal 'string', val count += 1 end assert_equal 5, count result = m.repeated_string.each{|val| val + '_junk'} assert_equal ['string'] * 5, result end def test_empty? m = TestMessage.new assert_equal true, m.repeated_string.empty? m.repeated_string << 'foo' assert_equal false, m.repeated_string.empty? m.repeated_string << 'bar' assert_equal false, m.repeated_string.empty? end def test_array_accessor m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr[1] end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr[-2] end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr[20] end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr[1, 2] end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr[0..2] end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr[-1, 1] end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr[10, 12] end end def test_array_settor m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr[1] = 'junk' end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr[-2] = 'snappy' end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr[3] = '' end # slight deviation; we are strongly typed, and nil is not allowed # for string types; m.repeated_string[5] = 'spacious' assert_equal ["foo", "snappy", "baz", "", "", "spacious"], m.repeated_string #make sure it sests the default types for other fields besides strings %w(repeated_int32 repeated_int64 repeated_uint32 repeated_uint64).each do |field_name| m.send(field_name)[3] = 10 assert_equal [0,0,0,10], m.send(field_name) end m.repeated_float[3] = 10.1 #wonky mri float handling assert_equal [0,0,0], m.repeated_float.to_a[0..2] assert_equal 10.1, m.repeated_float[3].round(1) m.repeated_double[3] = 10.1 assert_equal [0,0,0,10.1], m.repeated_double m.repeated_bool[3] = true assert_equal [false, false, false, true], m.repeated_bool m.repeated_bytes[3] = "bar".encode!('ASCII-8BIT') assert_equal ['', '', '', "bar".encode!('ASCII-8BIT')], m.repeated_bytes m.repeated_msg[3] = TestMessage2.new(:foo => 1) assert_equal [nil, nil, nil, TestMessage2.new(:foo => 1)], m.repeated_msg m.repeated_enum[3] = :A assert_equal [:Default, :Default, :Default, :A], m.repeated_enum # check_self_modifying_method(m.repeated_string, reference_arr) do |arr| # arr[20] = 'spacious' # end # TODO: accessor doesn't allow other ruby-like methods # check_self_modifying_method(m.repeated_string, reference_arr) do |arr| # arr[1, 2] = 'fizz' # end # check_self_modifying_method(m.repeated_string, reference_arr) do |arr| # arr[0..2] = 'buzz' # end end def test_push m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.push('fizz') end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr << 'fizz' end #TODO: push should support multiple # check_self_modifying_method(m.repeated_string, reference_arr) do |arr| # arr.push('fizz', 'buzz') # end end def test_clear m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.clear end end def test_concat m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone m.repeated_string.concat(['fizz', 'buzz']) assert_equal %w(foo bar baz fizz buzz), m.repeated_string #TODO: concat should return the orig array # check_self_modifying_method(m.repeated_string, reference_arr) do |arr| # arr.concat(['fizz', 'buzz']) # end end def test_equal m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone assert_equal reference_arr, m.repeated_string reference_arr << 'fizz' assert_not_equal reference_arr, m.repeated_string m.repeated_string << 'fizz' assert_equal reference_arr, m.repeated_string end def test_hash # just a sanity check m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone assert m.repeated_string.hash.is_a?(Integer) hash = m.repeated_string.hash assert_equal hash, m.repeated_string.hash m.repeated_string << 'j' assert_not_equal hash, m.repeated_string.hash end def test_plus m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr + ['fizz', 'buzz'] end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr += ['fizz', 'buzz'] end end def test_replace m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.replace(['fizz', 'buzz']) end end def test_to_a m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.to_a end end def test_to_ary m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.to_ary end end # emulate Array behavior ########################## def test_collect! m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.collect!{|x| x + "!" } end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.collect!.with_index{|x, i| x[0...i] } end end def test_delete m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.delete('bar') end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.delete('nope') end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.delete('nope'){'within'} end end def test_delete_at m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.delete_at(2) end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.delete_at(10) end end def test_fill m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.fill("x") end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.fill("z", 2, 2) end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.fill("y", 0..1) end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.fill { |i| (i*i).to_s } end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.fill(-2) { |i| (i*i*i).to_s } end end def test_flatten! m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.flatten! end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.flatten!(1) end end def test_insert m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.insert(2, 'fizz') end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.insert(3, 'fizz', 'buzz', 'bazz') end end def test_inspect m = TestMessage.new assert_equal '[]', m.repeated_string.inspect m.repeated_string << 'foo' assert_equal m.repeated_string.to_a.inspect, m.repeated_string.inspect m.repeated_string << 'bar' assert_equal m.repeated_string.to_a.inspect, m.repeated_string.inspect end def test_reverse! m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.reverse! end end def test_rotate! m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.rotate! end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.rotate!(2) end end def test_select! m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.select! { |v| v =~ /[aeiou]/ } end end def test_shift m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone # should return an element check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.shift end # should return an array check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.shift(2) end # should return nil check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.shift end end def test_shuffle! m = TestMessage.new m.repeated_string += %w(foo bar baz) orig_repeated_string = m.repeated_string.clone result = m.repeated_string.shuffle! assert_equal m.repeated_string, result # NOTE: sometimes it doesn't change the order... # assert_not_equal m.repeated_string.to_a, orig_repeated_string.to_a end def test_slice! m = TestMessage.new reference_arr = %w(foo bar baz bar fizz buzz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.slice!(2) end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.slice!(1,2) end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.slice!(0..1) end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.slice!(10) end end def test_sort! m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.sort! end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.sort! { |x,y| y <=> x } end end def test_sort_by! m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.sort_by! end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.sort_by!(&:hash) end end def test_uniq! m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.uniq! end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.uniq!{|s| s[0] } end end def test_unshift m = TestMessage.new reference_arr = %w(foo bar baz) m.repeated_string += reference_arr.clone check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.unshift('1') end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.unshift('a', 'b') end check_self_modifying_method(m.repeated_string, reference_arr) do |arr| arr.unshift('') end end ##### HELPER METHODS def check_self_modifying_method(repeated_field, ref_array) expected_result = yield(ref_array) actual_result = yield(repeated_field) if expected_result.is_a?(Enumerator) assert_equal expected_result.to_a, actual_result.to_a else assert_equal expected_result, actual_result end assert_equal ref_array, repeated_field end def repeated_field_names(klass) klass.descriptor.find_all{|f| f.label == :repeated}.map(&:name) end def fill_test_msg(test_msg) test_msg.repeated_int32 += [-10, -11] test_msg.repeated_int64 += [-1_000_000, -1_000_001] test_msg.repeated_uint32 += [10, 11] test_msg.repeated_uint64 += [1_000_000, 1_000_001] test_msg.repeated_bool += [true, false] test_msg.repeated_float += [-1.01, -1.02] test_msg.repeated_double += [-1.0000000000001, -1.0000000000002] test_msg.repeated_string += %w(foo bar) test_msg.repeated_bytes += ["bar".encode!('ASCII-8BIT'), "foo".encode!('ASCII-8BIT')] test_msg.repeated_msg << TestMessage2.new(:foo => 1) test_msg.repeated_msg << TestMessage2.new(:foo => 2) test_msg.repeated_enum << :A test_msg.repeated_enum << :B end pool = Google::Protobuf::DescriptorPool.new pool.build do add_message "TestMessage" do optional :optional_int32, :int32, 1 optional :optional_int64, :int64, 2 optional :optional_uint32, :uint32, 3 optional :optional_uint64, :uint64, 4 optional :optional_bool, :bool, 5 optional :optional_float, :float, 6 optional :optional_double, :double, 7 optional :optional_string, :string, 8 optional :optional_bytes, :bytes, 9 optional :optional_msg, :message, 10, "TestMessage2" optional :optional_enum, :enum, 11, "TestEnum" repeated :repeated_int32, :int32, 12 repeated :repeated_int64, :int64, 13 repeated :repeated_uint32, :uint32, 14 repeated :repeated_uint64, :uint64, 15 repeated :repeated_bool, :bool, 16 repeated :repeated_float, :float, 17 repeated :repeated_double, :double, 18 repeated :repeated_string, :string, 19 repeated :repeated_bytes, :bytes, 20 repeated :repeated_msg, :message, 21, "TestMessage2" repeated :repeated_enum, :enum, 22, "TestEnum" end add_message "TestMessage2" do optional :foo, :int32, 1 end add_enum "TestEnum" do value :Default, 0 value :A, 1 value :B, 2 value :C, 3 end end TestMessage = pool.lookup("TestMessage").msgclass TestMessage2 = pool.lookup("TestMessage2").msgclass TestEnum = pool.lookup("TestEnum").enummodule end