Protocol Buffers - Google's data interchange format (grpc依赖)
https://developers.google.com/protocol-buffers/
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714 lines
24 KiB
714 lines
24 KiB
#!/usr/bin/ruby |
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# basic_test_pb.rb is in the same directory as this test. |
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$LOAD_PATH.unshift(File.expand_path(File.dirname(__FILE__))) |
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require 'basic_test_pb' |
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require 'common_tests' |
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require 'google/protobuf' |
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require 'json' |
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require 'test/unit' |
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# ------------- generated code -------------- |
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module BasicTest |
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pool = Google::Protobuf::DescriptorPool.new |
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pool.build do |
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add_message "BadFieldNames" do |
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optional :dup, :int32, 1 |
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optional :class, :int32, 2 |
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end |
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end |
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BadFieldNames = pool.lookup("BadFieldNames").msgclass |
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# ------------ test cases --------------- |
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class MessageContainerTest < Test::Unit::TestCase |
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# Required by CommonTests module to resolve proto3 proto classes used in tests. |
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def proto_module |
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::BasicTest |
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end |
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include CommonTests |
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def test_issue_8311_crash |
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Google::Protobuf::DescriptorPool.generated_pool.build do |
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add_file("inner.proto", :syntax => :proto3) do |
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add_message "Inner" do |
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# Removing either of these fixes the segfault. |
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optional :foo, :string, 1 |
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optional :bar, :string, 2 |
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end |
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end |
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end |
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Google::Protobuf::DescriptorPool.generated_pool.build do |
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add_file("outer.proto", :syntax => :proto3) do |
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add_message "Outer" do |
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repeated :inners, :message, 1, "Inner" |
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end |
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end |
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end |
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outer = ::Google::Protobuf::DescriptorPool.generated_pool.lookup("Outer").msgclass |
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outer.new( |
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inners: [] |
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)['inners'].to_s |
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assert_raises Google::Protobuf::TypeError do |
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outer.new( |
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inners: [nil] |
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).to_s |
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end |
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end |
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def test_issue_8559_crash |
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msg = TestMessage.new |
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msg.repeated_int32 = ::Google::Protobuf::RepeatedField.new(:int32, [1, 2, 3]) |
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# https://github.com/jruby/jruby/issues/6818 was fixed in JRuby 9.3.0.0 |
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if cruby_or_jruby_9_3_or_higher? |
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GC.start(full_mark: true, immediate_sweep: true) |
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end |
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TestMessage.encode(msg) |
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end |
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def test_issue_9440 |
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msg = HelloRequest.new |
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msg.id = 8 |
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assert_equal 8, msg.id |
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msg.version = '1' |
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assert_equal 8, msg.id |
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end |
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def test_issue_9507 |
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pool = Google::Protobuf::DescriptorPool.new |
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pool.build do |
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add_message "NpeMessage" do |
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optional :type, :enum, 1, "TestEnum" |
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optional :other, :string, 2 |
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end |
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add_enum "TestEnum" do |
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value :Something, 0 |
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end |
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end |
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msgclass = pool.lookup("NpeMessage").msgclass |
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m = msgclass.new( |
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other: "foo" # must be set, but can be blank |
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) |
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begin |
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encoded = msgclass.encode(m) |
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rescue java.lang.NullPointerException |
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flunk "NPE rescued" |
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end |
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decoded = msgclass.decode(encoded) |
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decoded.inspect |
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decoded.to_proto |
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end |
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def test_has_field |
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m = TestSingularFields.new |
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refute m.has_singular_msg? |
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m.singular_msg = TestMessage2.new |
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assert m.has_singular_msg? |
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assert TestSingularFields.descriptor.lookup('singular_msg').has?(m) |
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m = OneofMessage.new |
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refute m.has_my_oneof? |
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refute m.has_a? |
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m.a = "foo" |
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assert m.has_my_oneof? |
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assert m.has_a? |
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assert_true OneofMessage.descriptor.lookup('a').has?(m) |
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m = TestSingularFields.new |
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assert_raises NoMethodError do |
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m.has_singular_int32? |
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end |
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assert_raises ArgumentError do |
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TestSingularFields.descriptor.lookup('singular_int32').has?(m) |
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end |
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assert_raises NoMethodError do |
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m.has_singular_string? |
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end |
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assert_raises ArgumentError do |
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TestSingularFields.descriptor.lookup('singular_string').has?(m) |
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end |
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assert_raises NoMethodError do |
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m.has_singular_bool? |
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end |
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assert_raises ArgumentError do |
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TestSingularFields.descriptor.lookup('singular_bool').has?(m) |
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end |
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m = TestMessage.new |
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assert_raises NoMethodError do |
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m.has_repeated_msg? |
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end |
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assert_raises ArgumentError do |
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TestMessage.descriptor.lookup('repeated_msg').has?(m) |
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end |
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end |
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def test_no_presence |
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m = TestSingularFields.new |
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# Explicitly setting to zero does not cause anything to be serialized. |
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m.singular_int32 = 0 |
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assert_empty TestSingularFields.encode(m) |
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# Explicitly setting to a non-zero value *does* cause serialization. |
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m.singular_int32 = 1 |
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refute_empty TestSingularFields.encode(m) |
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m.singular_int32 = 0 |
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assert_empty TestSingularFields.encode(m) |
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end |
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def test_set_clear_defaults |
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m = TestSingularFields.new |
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m.singular_int32 = -42 |
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assert_equal( -42, m.singular_int32 ) |
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m.clear_singular_int32 |
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assert_equal 0, m.singular_int32 |
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m.singular_int32 = 50 |
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assert_equal 50, m.singular_int32 |
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TestSingularFields.descriptor.lookup('singular_int32').clear(m) |
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assert_equal 0, m.singular_int32 |
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m.singular_string = "foo bar" |
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assert_equal "foo bar", m.singular_string |
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m.clear_singular_string |
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assert_empty m.singular_string |
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m.singular_string = "foo" |
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assert_equal "foo", m.singular_string |
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TestSingularFields.descriptor.lookup('singular_string').clear(m) |
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assert_empty m.singular_string |
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m.singular_msg = TestMessage2.new(:foo => 42) |
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assert_equal TestMessage2.new(:foo => 42), m.singular_msg |
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assert m.has_singular_msg? |
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m.clear_singular_msg |
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assert_nil m.singular_msg |
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refute m.has_singular_msg? |
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m.singular_msg = TestMessage2.new(:foo => 42) |
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assert_equal TestMessage2.new(:foo => 42), m.singular_msg |
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TestSingularFields.descriptor.lookup('singular_msg').clear(m) |
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assert_nil m.singular_msg |
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end |
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def test_import_proto2 |
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m = TestMessage.new |
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refute m.has_optional_proto2_submessage? |
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m.optional_proto2_submessage = ::FooBar::Proto2::TestImportedMessage.new |
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assert m.has_optional_proto2_submessage? |
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assert TestMessage.descriptor.lookup('optional_proto2_submessage').has?(m) |
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m.clear_optional_proto2_submessage |
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refute m.has_optional_proto2_submessage? |
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end |
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def test_clear_repeated_fields |
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m = TestMessage.new |
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m.repeated_int32.push(1) |
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assert_equal [1], m.repeated_int32 |
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m.clear_repeated_int32 |
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assert_empty m.repeated_int32 |
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m.repeated_int32.push(1) |
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assert_equal [1], m.repeated_int32 |
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TestMessage.descriptor.lookup('repeated_int32').clear(m) |
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assert_empty m.repeated_int32 |
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m = OneofMessage.new |
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m.a = "foo" |
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assert_equal "foo", m.a |
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assert m.has_my_oneof? |
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assert_equal :a, m.my_oneof |
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m.clear_a |
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refute m.has_my_oneof? |
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m.a = "foobar" |
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assert m.has_my_oneof? |
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m.clear_my_oneof |
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refute m.has_my_oneof? |
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m.a = "bar" |
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assert_equal "bar", m.a |
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assert m.has_my_oneof? |
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OneofMessage.descriptor.lookup('a').clear(m) |
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refute m.has_my_oneof? |
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end |
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def test_initialization_map_errors |
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e = assert_raises ArgumentError do |
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TestMessage.new(:hello => "world") |
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end |
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assert_match(/hello/, e.message) |
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e = assert_raises ArgumentError do |
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MapMessage.new(:map_string_int32 => "hello") |
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end |
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assert_equal "Expected Hash object as initializer value for map field 'map_string_int32' (given String).", e.message |
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e = assert_raises ArgumentError do |
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TestMessage.new(:repeated_uint32 => "hello") |
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end |
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assert_equal "Expected array as initializer value for repeated field 'repeated_uint32' (given String).", e.message |
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end |
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def test_map_field |
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m = MapMessage.new |
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assert_empty m.map_string_int32.to_h |
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assert_empty m.map_string_msg.to_h |
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m = MapMessage.new( |
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:map_string_int32 => {"a" => 1, "b" => 2}, |
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:map_string_msg => {"a" => TestMessage2.new(:foo => 1), |
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"b" => TestMessage2.new(:foo => 2)}, |
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:map_string_enum => {"a" => :A, "b" => :B}) |
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assert_equal ["a", "b"], m.map_string_int32.keys.sort |
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assert_equal 1, m.map_string_int32["a"] |
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assert_equal 2, m.map_string_msg["b"].foo |
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assert_equal :A, m.map_string_enum["a"] |
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m.map_string_int32["c"] = 3 |
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assert_equal 3, m.map_string_int32["c"] |
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m.map_string_msg["c"] = TestMessage2.new(:foo => 3) |
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assert_equal TestMessage2.new(:foo => 3), m.map_string_msg["c"] |
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m.map_string_msg.delete("b") |
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m.map_string_msg.delete("c") |
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assert_equal({ "a" => TestMessage2.new(:foo => 1).to_h }, m.map_string_msg.to_h) |
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assert_raises Google::Protobuf::TypeError do |
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m.map_string_msg["e"] = TestMessage.new # wrong value type |
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end |
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# ensure nothing was added by the above |
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assert_equal({ "a" => TestMessage2.new(:foo => 1).to_h }, m.map_string_msg.to_h) |
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m.map_string_int32 = Google::Protobuf::Map.new(:string, :int32) |
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assert_raises Google::Protobuf::TypeError do |
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m.map_string_int32 = Google::Protobuf::Map.new(:string, :int64) |
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end |
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assert_raises Google::Protobuf::TypeError do |
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m.map_string_int32 = {} |
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end |
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assert_raises Google::Protobuf::TypeError do |
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m = MapMessage.new(:map_string_int32 => { 1 => "I am not a number" }) |
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end |
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end |
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def test_map_field_with_symbol |
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m = MapMessage.new |
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assert_empty m.map_string_int32.to_h |
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assert_empty m.map_string_msg.to_h |
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m = MapMessage.new( |
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:map_string_int32 => {a: 1, "b" => 2}, |
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:map_string_msg => {a: TestMessage2.new(:foo => 1), |
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b: TestMessage2.new(:foo => 10)}) |
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assert_equal 1, m.map_string_int32[:a] |
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assert_equal 2, m.map_string_int32[:b] |
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assert_equal 10, m.map_string_msg[:b].foo |
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end |
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def test_map_inspect |
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m = MapMessage.new( |
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:map_string_int32 => {"a" => 1, "b" => 2}, |
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:map_string_msg => {"a" => TestMessage2.new(:foo => 1), |
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"b" => TestMessage2.new(:foo => 2)}, |
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:map_string_enum => {"a" => :A, "b" => :B}) |
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# JRuby doesn't keep consistent ordering so check for either version |
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expected_a = "<BasicTest::MapMessage: map_string_int32: {\"b\"=>2, \"a\"=>1}, map_string_msg: {\"b\"=><BasicTest::TestMessage2: foo: 2>, \"a\"=><BasicTest::TestMessage2: foo: 1>}, map_string_enum: {\"b\"=>:B, \"a\"=>:A}>" |
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expected_b = "<BasicTest::MapMessage: map_string_int32: {\"a\"=>1, \"b\"=>2}, map_string_msg: {\"a\"=><BasicTest::TestMessage2: foo: 1>, \"b\"=><BasicTest::TestMessage2: foo: 2>}, map_string_enum: {\"a\"=>:A, \"b\"=>:B}>" |
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inspect_result = m.inspect |
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assert_includes [expected_a, expected_b], inspect_result |
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end |
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def test_map_corruption |
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# This pattern led to a crash in a previous version of upb/protobuf. |
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m = MapMessage.new(map_string_int32: { "aaa" => 1 }) |
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m.map_string_int32['podid'] = 2 |
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m.map_string_int32['aaa'] = 3 |
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end |
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def test_map_wrappers |
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run_asserts = ->(m) { |
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assert_equal 2.0, m.map_double[0].value |
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assert_equal 4.0, m.map_float[0].value |
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assert_equal 3, m.map_int32[0].value |
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assert_equal 4, m.map_int64[0].value |
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assert_equal 5, m.map_uint32[0].value |
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assert_equal 6, m.map_uint64[0].value |
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assert m.map_bool[0].value |
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assert_equal 'str', m.map_string[0].value |
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assert_equal 'fun', m.map_bytes[0].value |
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} |
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m = proto_module::Wrapper.new( |
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map_double: {0 => Google::Protobuf::DoubleValue.new(value: 2.0)}, |
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map_float: {0 => Google::Protobuf::FloatValue.new(value: 4.0)}, |
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map_int32: {0 => Google::Protobuf::Int32Value.new(value: 3)}, |
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map_int64: {0 => Google::Protobuf::Int64Value.new(value: 4)}, |
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map_uint32: {0 => Google::Protobuf::UInt32Value.new(value: 5)}, |
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map_uint64: {0 => Google::Protobuf::UInt64Value.new(value: 6)}, |
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map_bool: {0 => Google::Protobuf::BoolValue.new(value: true)}, |
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map_string: {0 => Google::Protobuf::StringValue.new(value: 'str')}, |
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map_bytes: {0 => Google::Protobuf::BytesValue.new(value: 'fun')}, |
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) |
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run_asserts.call(m) |
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serialized = proto_module::Wrapper::encode(m) |
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m2 = proto_module::Wrapper::decode(serialized) |
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run_asserts.call(m2) |
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# Test the case where we are serializing directly from the parsed form |
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# (before anything lazy is materialized). |
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m3 = proto_module::Wrapper::decode(serialized) |
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serialized2 = proto_module::Wrapper::encode(m3) |
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m4 = proto_module::Wrapper::decode(serialized2) |
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run_asserts.call(m4) |
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# Test that the lazy form compares equal to the expanded form. |
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m5 = proto_module::Wrapper::decode(serialized2) |
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assert_equal m5, m |
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end |
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def test_map_wrappers_with_default_values |
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run_asserts = ->(m) { |
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assert_equal 0.0, m.map_double[0].value |
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assert_equal 0.0, m.map_float[0].value |
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assert_equal 0, m.map_int32[0].value |
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assert_equal 0, m.map_int64[0].value |
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assert_equal 0, m.map_uint32[0].value |
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assert_equal 0, m.map_uint64[0].value |
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refute m.map_bool[0].value |
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assert_empty m.map_string[0].value |
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assert_empty m.map_bytes[0].value |
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} |
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m = proto_module::Wrapper.new( |
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map_double: {0 => Google::Protobuf::DoubleValue.new(value: 0.0)}, |
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map_float: {0 => Google::Protobuf::FloatValue.new(value: 0.0)}, |
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map_int32: {0 => Google::Protobuf::Int32Value.new(value: 0)}, |
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map_int64: {0 => Google::Protobuf::Int64Value.new(value: 0)}, |
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map_uint32: {0 => Google::Protobuf::UInt32Value.new(value: 0)}, |
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map_uint64: {0 => Google::Protobuf::UInt64Value.new(value: 0)}, |
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map_bool: {0 => Google::Protobuf::BoolValue.new(value: false)}, |
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map_string: {0 => Google::Protobuf::StringValue.new(value: '')}, |
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map_bytes: {0 => Google::Protobuf::BytesValue.new(value: '')}, |
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) |
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run_asserts.call(m) |
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serialized = proto_module::Wrapper::encode(m) |
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m2 = proto_module::Wrapper::decode(serialized) |
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run_asserts.call(m2) |
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# Test the case where we are serializing directly from the parsed form |
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# (before anything lazy is materialized). |
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m3 = proto_module::Wrapper::decode(serialized) |
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serialized2 = proto_module::Wrapper::encode(m3) |
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m4 = proto_module::Wrapper::decode(serialized2) |
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run_asserts.call(m4) |
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# Test that the lazy form compares equal to the expanded form. |
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m5 = proto_module::Wrapper::decode(serialized2) |
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assert_equal m5, m |
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end |
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def test_map_wrappers_with_no_value |
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run_asserts = ->(m) { |
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assert_equal 0.0, m.map_double[0].value |
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assert_equal 0.0, m.map_float[0].value |
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assert_equal 0, m.map_int32[0].value |
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assert_equal 0, m.map_int64[0].value |
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assert_equal 0, m.map_uint32[0].value |
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assert_equal 0, m.map_uint64[0].value |
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refute m.map_bool[0].value |
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assert_empty m.map_string[0].value |
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assert_empty m.map_bytes[0].value |
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} |
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m = proto_module::Wrapper.new( |
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map_double: {0 => Google::Protobuf::DoubleValue.new()}, |
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map_float: {0 => Google::Protobuf::FloatValue.new()}, |
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map_int32: {0 => Google::Protobuf::Int32Value.new()}, |
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map_int64: {0 => Google::Protobuf::Int64Value.new()}, |
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map_uint32: {0 => Google::Protobuf::UInt32Value.new()}, |
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map_uint64: {0 => Google::Protobuf::UInt64Value.new()}, |
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map_bool: {0 => Google::Protobuf::BoolValue.new()}, |
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map_string: {0 => Google::Protobuf::StringValue.new()}, |
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map_bytes: {0 => Google::Protobuf::BytesValue.new()}, |
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) |
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run_asserts.call(m) |
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serialized = proto_module::Wrapper::encode(m) |
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m2 = proto_module::Wrapper::decode(serialized) |
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run_asserts.call(m2) |
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# Test the case where we are serializing directly from the parsed form |
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# (before anything lazy is materialized). |
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m3 = proto_module::Wrapper::decode(serialized) |
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serialized2 = proto_module::Wrapper::encode(m3) |
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m4 = proto_module::Wrapper::decode(serialized2) |
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run_asserts.call(m4) |
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end |
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def test_concurrent_decoding |
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o = Outer.new |
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o.items[0] = Inner.new |
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raw = Outer.encode(o) |
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thds = 2.times.map do |
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Thread.new do |
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100000.times do |
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assert_equal o, Outer.decode(raw) |
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end |
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end |
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end |
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thds.map(&:join) |
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end |
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def test_map_encode_decode |
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m = MapMessage.new( |
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:map_string_int32 => {"a" => 1, "b" => 2}, |
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:map_string_msg => {"a" => TestMessage2.new(:foo => 1), |
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"b" => TestMessage2.new(:foo => 2)}, |
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:map_string_enum => {"a" => :A, "b" => :B}) |
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m2 = MapMessage.decode(MapMessage.encode(m)) |
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assert_equal m, m2 |
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m3 = MapMessageWireEquiv.decode(MapMessage.encode(m)) |
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assert_equal 2, m3.map_string_int32.length |
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kv = {} |
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m3.map_string_int32.map { |msg| kv[msg.key] = msg.value } |
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assert_equal({"a" => 1, "b" => 2}, kv) |
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kv = {} |
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m3.map_string_msg.map { |msg| kv[msg.key] = msg.value } |
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assert_equal({"a" => TestMessage2.new(:foo => 1), |
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"b" => TestMessage2.new(:foo => 2)}, kv) |
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end |
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def test_protobuf_decode_json_ignore_unknown_fields |
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m = TestMessage.decode_json({ |
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optional_string: "foo", |
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not_in_message: "some_value" |
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}.to_json, { ignore_unknown_fields: true }) |
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assert_equal "foo", m.optional_string |
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e = assert_raises Google::Protobuf::ParseError do |
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TestMessage.decode_json({ not_in_message: "some_value" }.to_json) |
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end |
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assert_match(/No such field: not_in_message/, e.message) |
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end |
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#def test_json_quoted_string |
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# m = TestMessage.decode_json(%q( |
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# "optionalInt64": "1",, |
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# })) |
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# puts(m) |
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# assert_equal 1, m.optional_int32 |
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#end |
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|
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def test_to_h |
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m = TestMessage.new(:optional_bool => true, :optional_double => -10.100001, :optional_string => 'foo', :repeated_string => ['bar1', 'bar2'], :repeated_msg => [TestMessage2.new(:foo => 100)]) |
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expected_result = { |
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:optional_bool=>true, |
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:optional_bytes=>"", |
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:optional_double=>-10.100001, |
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:optional_enum=>:Default, |
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:optional_float=>0.0, |
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:optional_int32=>0, |
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:optional_int64=>0, |
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:optional_msg=>nil, |
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:optional_msg2=>nil, |
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:optional_proto2_submessage=>nil, |
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:optional_string=>"foo", |
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:optional_uint32=>0, |
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:optional_uint64=>0, |
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:repeated_bool=>[], |
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:repeated_bytes=>[], |
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:repeated_double=>[], |
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:repeated_enum=>[], |
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:repeated_float=>[], |
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:repeated_int32=>[], |
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:repeated_int64=>[], |
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:repeated_msg=>[{:foo => 100}], |
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:repeated_string=>["bar1", "bar2"], |
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:repeated_uint32=>[], |
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:repeated_uint64=>[] |
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} |
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assert_equal expected_result, m.to_h |
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|
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m = MapMessage.new( |
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:map_string_int32 => {"a" => 1, "b" => 2}, |
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:map_string_msg => {"a" => TestMessage2.new(:foo => 1), |
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"b" => TestMessage2.new(:foo => 2)}, |
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:map_string_enum => {"a" => :A, "b" => :B}) |
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expected_result = { |
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:map_string_int32 => {"a" => 1, "b" => 2}, |
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:map_string_msg => {"a" => {:foo => 1}, "b" => {:foo => 2}}, |
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:map_string_enum => {"a" => :A, "b" => :B} |
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} |
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assert_equal expected_result, m.to_h |
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end |
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|
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def test_json_maps |
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m = MapMessage.new(:map_string_int32 => {"a" => 1}) |
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expected = {mapStringInt32: {a: 1}, mapStringMsg: {}, mapStringEnum: {}} |
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expected_preserve = {map_string_int32: {a: 1}, map_string_msg: {}, map_string_enum: {}} |
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assert_equal expected, JSON.parse(MapMessage.encode_json(m, :emit_defaults=>true), :symbolize_names => true) |
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|
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json = MapMessage.encode_json(m, :preserve_proto_fieldnames => true, :emit_defaults=>true) |
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assert_equal expected_preserve, JSON.parse(json, :symbolize_names => true) |
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|
|
m2 = MapMessage.decode_json(MapMessage.encode_json(m)) |
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assert_equal m, m2 |
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end |
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|
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def test_json_maps_emit_defaults_submsg |
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m = MapMessage.new(:map_string_msg => {"a" => TestMessage2.new(foo: 0)}) |
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expected = {mapStringInt32: {}, mapStringMsg: {a: {foo: 0}}, mapStringEnum: {}} |
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|
|
actual = MapMessage.encode_json(m, :emit_defaults => true) |
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|
|
assert_equal expected, JSON.parse(actual, :symbolize_names => true) |
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end |
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|
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def test_json_emit_defaults_submsg |
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m = TestSingularFields.new(singular_msg: proto_module::TestMessage2.new) |
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|
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expected = { |
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singularInt32: 0, |
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singularInt64: "0", |
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singularUint32: 0, |
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singularUint64: "0", |
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singularBool: false, |
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singularFloat: 0, |
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singularDouble: 0, |
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singularString: "", |
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singularBytes: "", |
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singularMsg: {}, |
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singularEnum: "Default", |
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} |
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|
|
actual = proto_module::TestMessage.encode_json(m, :emit_defaults => true) |
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|
|
assert_equal expected, JSON.parse(actual, :symbolize_names => true) |
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end |
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|
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def test_respond_to |
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msg = MapMessage.new |
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assert_respond_to msg, :map_string_int32 |
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refute_respond_to msg, :bacon |
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end |
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|
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def test_file_descriptor |
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file_descriptor = TestMessage.descriptor.file_descriptor |
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refute_nil file_descriptor |
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assert_equal "tests/basic_test.proto", file_descriptor.name |
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assert_equal :proto3, file_descriptor.syntax |
|
|
|
file_descriptor = TestEnum.descriptor.file_descriptor |
|
refute_nil file_descriptor |
|
assert_equal "tests/basic_test.proto", file_descriptor.name |
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assert_equal :proto3, file_descriptor.syntax |
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end |
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|
|
def test_map_freeze |
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m = proto_module::MapMessage.new |
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m.map_string_int32['a'] = 5 |
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m.map_string_msg['b'] = proto_module::TestMessage2.new |
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|
|
m.map_string_int32.freeze |
|
m.map_string_msg.freeze |
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|
|
assert m.map_string_int32.frozen? |
|
assert m.map_string_msg.frozen? |
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|
|
assert_raises(FrozenError) { m.map_string_int32['foo'] = 1 } |
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assert_raises(FrozenError) { m.map_string_msg['bar'] = proto_module::TestMessage2.new } |
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assert_raises(FrozenError) { m.map_string_int32.delete('a') } |
|
assert_raises(FrozenError) { m.map_string_int32.clear } |
|
end |
|
|
|
def test_map_length |
|
m = proto_module::MapMessage.new |
|
assert_equal 0, m.map_string_int32.length |
|
assert_equal 0, m.map_string_msg.length |
|
assert_equal 0, m.map_string_int32.size |
|
assert_equal 0, m.map_string_msg.size |
|
|
|
m.map_string_int32['a'] = 1 |
|
m.map_string_int32['b'] = 2 |
|
m.map_string_msg['a'] = proto_module::TestMessage2.new |
|
assert_equal 2, m.map_string_int32.length |
|
assert_equal 1, m.map_string_msg.length |
|
assert_equal 2, m.map_string_int32.size |
|
assert_equal 1, m.map_string_msg.size |
|
end |
|
|
|
def test_string_with_singleton_class_enabled |
|
str = 'foobar' |
|
# NOTE: Accessing a singleton class of an object changes its low level class representation |
|
# as far as the C API's CLASS_OF() method concerned, exposing the issue |
|
str.singleton_class |
|
m = proto_module::TestMessage.new( |
|
optional_string: str, |
|
optional_bytes: str |
|
) |
|
|
|
assert_equal str, m.optional_string |
|
assert_equal str, m.optional_bytes |
|
end |
|
|
|
def test_utf8 |
|
m = proto_module::TestMessage.new( |
|
optional_string: "µpb", |
|
) |
|
m2 = proto_module::TestMessage.decode(proto_module::TestMessage.encode(m)) |
|
assert_equal m2, m |
|
end |
|
|
|
def test_map_fields_respond_to? # regression test for issue 9202 |
|
msg = proto_module::MapMessage.new |
|
assert_respond_to msg, :map_string_int32= |
|
msg.map_string_int32 = Google::Protobuf::Map.new(:string, :int32) |
|
assert_respond_to msg, :map_string_int32 |
|
assert_equal( Google::Protobuf::Map.new(:string, :int32), msg.map_string_int32 ) |
|
assert_respond_to msg, :clear_map_string_int32 |
|
msg.clear_map_string_int32 |
|
|
|
refute_respond_to msg, :has_map_string_int32? |
|
assert_raises NoMethodError do |
|
msg.has_map_string_int32? |
|
end |
|
refute_respond_to msg, :map_string_int32_as_value |
|
assert_raises NoMethodError do |
|
msg.map_string_int32_as_value |
|
end |
|
refute_respond_to msg, :map_string_int32_as_value= |
|
assert_raises NoMethodError do |
|
msg.map_string_int32_as_value = :boom |
|
end |
|
end |
|
end |
|
|
|
def test_oneof_fields_respond_to? # regression test for issue 9202 |
|
msg = proto_module::OneofMessage.new |
|
# `has_` prefix + "?" suffix actions should work for oneofs fields and members. |
|
assert msg.has_my_oneof? |
|
assert msg.respond_to? :has_my_oneof? |
|
assert_respond_to msg, :has_a? |
|
refute msg.has_a? |
|
assert_respond_to msg, :has_b? |
|
refute msg.has_b? |
|
assert_respond_to msg, :has_c? |
|
refute msg.has_c? |
|
assert_respond_to msg, :has_d? |
|
refute msg.has_d? |
|
end |
|
end
|
|
|