// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // // A proto file we will use for unit testing. syntax = "proto2"; // Some generic_services option(s) added automatically. // See: http://go/proto2-generic-services-default option cc_generic_services = true; // auto-added option java_generic_services = true; // auto-added option py_generic_services = true; // auto-added option cc_enable_arenas = true; import "google/protobuf/unittest_import.proto"; // We don't put this in a package within proto2 because we need to make sure // that the generated code doesn't depend on being in the proto2 namespace. // In test_util.h we do "using namespace unittest = protobuf_unittest". package protobuf_unittest; // Protos optimized for SPEED use a strict superset of the generated code // of equivalent ones optimized for CODE_SIZE, so we should optimize all our // tests for speed unless explicitly testing code size optimization. option optimize_for = SPEED; option java_outer_classname = "UnittestProto"; // This proto includes every type of field in both singular and repeated // forms. message TestAllTypes { message NestedMessage { // The field name "b" fails to compile in proto1 because it conflicts with // a local variable named "b" in one of the generated methods. Doh. // This file needs to compile in proto1 to test backwards-compatibility. optional int32 bb = 1; } enum NestedEnum { FOO = 1; BAR = 2; BAZ = 3; NEG = -1; // Intentionally negative. } // Singular optional int32 optional_int32 = 1; optional int64 optional_int64 = 2; optional uint32 optional_uint32 = 3; optional uint64 optional_uint64 = 4; optional sint32 optional_sint32 = 5; optional sint64 optional_sint64 = 6; optional fixed32 optional_fixed32 = 7; optional fixed64 optional_fixed64 = 8; optional sfixed32 optional_sfixed32 = 9; optional sfixed64 optional_sfixed64 = 10; optional float optional_float = 11; optional double optional_double = 12; optional bool optional_bool = 13; optional string optional_string = 14; optional bytes optional_bytes = 15; optional group OptionalGroup = 16 { optional int32 a = 17; } optional NestedMessage optional_nested_message = 18; optional ForeignMessage optional_foreign_message = 19; optional protobuf_unittest_import.ImportMessage optional_import_message = 20; optional NestedEnum optional_nested_enum = 21; optional ForeignEnum optional_foreign_enum = 22; optional protobuf_unittest_import.ImportEnum optional_import_enum = 23; optional string optional_string_piece = 24 [ctype=STRING_PIECE]; optional string optional_cord = 25 [ctype=CORD]; // Defined in unittest_import_public.proto optional protobuf_unittest_import.PublicImportMessage optional_public_import_message = 26; optional NestedMessage optional_lazy_message = 27 [lazy=true]; // Repeated repeated int32 repeated_int32 = 31; repeated int64 repeated_int64 = 32; repeated uint32 repeated_uint32 = 33; repeated uint64 repeated_uint64 = 34; repeated sint32 repeated_sint32 = 35; repeated sint64 repeated_sint64 = 36; repeated fixed32 repeated_fixed32 = 37; repeated fixed64 repeated_fixed64 = 38; repeated sfixed32 repeated_sfixed32 = 39; repeated sfixed64 repeated_sfixed64 = 40; repeated float repeated_float = 41; repeated double repeated_double = 42; repeated bool repeated_bool = 43; repeated string repeated_string = 44; repeated bytes repeated_bytes = 45; repeated group RepeatedGroup = 46 { optional int32 a = 47; } repeated NestedMessage repeated_nested_message = 48; repeated ForeignMessage repeated_foreign_message = 49; repeated protobuf_unittest_import.ImportMessage repeated_import_message = 50; repeated NestedEnum repeated_nested_enum = 51; repeated ForeignEnum repeated_foreign_enum = 52; repeated protobuf_unittest_import.ImportEnum repeated_import_enum = 53; repeated string repeated_string_piece = 54 [ctype=STRING_PIECE]; repeated string repeated_cord = 55 [ctype=CORD]; repeated NestedMessage repeated_lazy_message = 57 [lazy=true]; // Singular with defaults optional int32 default_int32 = 61 [default = 41 ]; optional int64 default_int64 = 62 [default = 42 ]; optional uint32 default_uint32 = 63 [default = 43 ]; optional uint64 default_uint64 = 64 [default = 44 ]; optional sint32 default_sint32 = 65 [default = -45 ]; optional sint64 default_sint64 = 66 [default = 46 ]; optional fixed32 default_fixed32 = 67 [default = 47 ]; optional fixed64 default_fixed64 = 68 [default = 48 ]; optional sfixed32 default_sfixed32 = 69 [default = 49 ]; optional sfixed64 default_sfixed64 = 70 [default = -50 ]; optional float default_float = 71 [default = 51.5 ]; optional double default_double = 72 [default = 52e3 ]; optional bool default_bool = 73 [default = true ]; optional string default_string = 74 [default = "hello"]; optional bytes default_bytes = 75 [default = "world"]; optional NestedEnum default_nested_enum = 81 [default = BAR ]; optional ForeignEnum default_foreign_enum = 82 [default = FOREIGN_BAR]; optional protobuf_unittest_import.ImportEnum default_import_enum = 83 [default = IMPORT_BAR]; optional string default_string_piece = 84 [ctype=STRING_PIECE,default="abc"]; optional string default_cord = 85 [ctype=CORD,default="123"]; // For oneof test oneof oneof_field { uint32 oneof_uint32 = 111; NestedMessage oneof_nested_message = 112; string oneof_string = 113; bytes oneof_bytes = 114; } } // This proto includes a recusively nested message. message NestedTestAllTypes { optional NestedTestAllTypes child = 1; optional TestAllTypes payload = 2; repeated NestedTestAllTypes repeated_child = 3; } message TestDeprecatedFields { optional int32 deprecated_int32 = 1 [deprecated=true]; } message TestDeprecatedMessage { option deprecated = true; } // Define these after TestAllTypes to make sure the compiler can handle // that. message ForeignMessage { optional int32 c = 1; optional int32 d = 2; } enum ForeignEnum { FOREIGN_FOO = 4; FOREIGN_BAR = 5; FOREIGN_BAZ = 6; } message TestReservedFields { reserved 2, 15, 9 to 11; reserved "bar", "baz"; } message TestAllExtensions { extensions 1 to max; } extend TestAllExtensions { // Singular optional int32 optional_int32_extension = 1; optional int64 optional_int64_extension = 2; optional uint32 optional_uint32_extension = 3; optional uint64 optional_uint64_extension = 4; optional sint32 optional_sint32_extension = 5; optional sint64 optional_sint64_extension = 6; optional fixed32 optional_fixed32_extension = 7; optional fixed64 optional_fixed64_extension = 8; optional sfixed32 optional_sfixed32_extension = 9; optional sfixed64 optional_sfixed64_extension = 10; optional float optional_float_extension = 11; optional double optional_double_extension = 12; optional bool optional_bool_extension = 13; optional string optional_string_extension = 14; optional bytes optional_bytes_extension = 15; optional group OptionalGroup_extension = 16 { optional int32 a = 17; } optional TestAllTypes.NestedMessage optional_nested_message_extension = 18; optional ForeignMessage optional_foreign_message_extension = 19; optional protobuf_unittest_import.ImportMessage optional_import_message_extension = 20; optional TestAllTypes.NestedEnum optional_nested_enum_extension = 21; optional ForeignEnum optional_foreign_enum_extension = 22; optional protobuf_unittest_import.ImportEnum optional_import_enum_extension = 23; optional string optional_string_piece_extension = 24 [ctype=STRING_PIECE]; optional string optional_cord_extension = 25 [ctype=CORD]; optional protobuf_unittest_import.PublicImportMessage optional_public_import_message_extension = 26; optional TestAllTypes.NestedMessage optional_lazy_message_extension = 27 [lazy=true]; // Repeated repeated int32 repeated_int32_extension = 31; repeated int64 repeated_int64_extension = 32; repeated uint32 repeated_uint32_extension = 33; repeated uint64 repeated_uint64_extension = 34; repeated sint32 repeated_sint32_extension = 35; repeated sint64 repeated_sint64_extension = 36; repeated fixed32 repeated_fixed32_extension = 37; repeated fixed64 repeated_fixed64_extension = 38; repeated sfixed32 repeated_sfixed32_extension = 39; repeated sfixed64 repeated_sfixed64_extension = 40; repeated float repeated_float_extension = 41; repeated double repeated_double_extension = 42; repeated bool repeated_bool_extension = 43; repeated string repeated_string_extension = 44; repeated bytes repeated_bytes_extension = 45; repeated group RepeatedGroup_extension = 46 { optional int32 a = 47; } repeated TestAllTypes.NestedMessage repeated_nested_message_extension = 48; repeated ForeignMessage repeated_foreign_message_extension = 49; repeated protobuf_unittest_import.ImportMessage repeated_import_message_extension = 50; repeated TestAllTypes.NestedEnum repeated_nested_enum_extension = 51; repeated ForeignEnum repeated_foreign_enum_extension = 52; repeated protobuf_unittest_import.ImportEnum repeated_import_enum_extension = 53; repeated string repeated_string_piece_extension = 54 [ctype=STRING_PIECE]; repeated string repeated_cord_extension = 55 [ctype=CORD]; repeated TestAllTypes.NestedMessage repeated_lazy_message_extension = 57 [lazy=true]; // Singular with defaults optional int32 default_int32_extension = 61 [default = 41 ]; optional int64 default_int64_extension = 62 [default = 42 ]; optional uint32 default_uint32_extension = 63 [default = 43 ]; optional uint64 default_uint64_extension = 64 [default = 44 ]; optional sint32 default_sint32_extension = 65 [default = -45 ]; optional sint64 default_sint64_extension = 66 [default = 46 ]; optional fixed32 default_fixed32_extension = 67 [default = 47 ]; optional fixed64 default_fixed64_extension = 68 [default = 48 ]; optional sfixed32 default_sfixed32_extension = 69 [default = 49 ]; optional sfixed64 default_sfixed64_extension = 70 [default = -50 ]; optional float default_float_extension = 71 [default = 51.5 ]; optional double default_double_extension = 72 [default = 52e3 ]; optional bool default_bool_extension = 73 [default = true ]; optional string default_string_extension = 74 [default = "hello"]; optional bytes default_bytes_extension = 75 [default = "world"]; optional TestAllTypes.NestedEnum default_nested_enum_extension = 81 [default = BAR]; optional ForeignEnum default_foreign_enum_extension = 82 [default = FOREIGN_BAR]; optional protobuf_unittest_import.ImportEnum default_import_enum_extension = 83 [default = IMPORT_BAR]; optional string default_string_piece_extension = 84 [ctype=STRING_PIECE, default="abc"]; optional string default_cord_extension = 85 [ctype=CORD, default="123"]; // For oneof test optional uint32 oneof_uint32_extension = 111; optional TestAllTypes.NestedMessage oneof_nested_message_extension = 112; optional string oneof_string_extension = 113; optional bytes oneof_bytes_extension = 114; } message TestNestedExtension { extend TestAllExtensions { // Check for bug where string extensions declared in tested scope did not // compile. optional string test = 1002 [default="test"]; // Used to test if generated extension name is correct when there are // underscores. optional string nested_string_extension = 1003; } } // We have separate messages for testing required fields because it's // annoying to have to fill in required fields in TestProto in order to // do anything with it. Note that we don't need to test every type of // required filed because the code output is basically identical to // optional fields for all types. message TestRequired { required int32 a = 1; optional int32 dummy2 = 2; required int32 b = 3; extend TestAllExtensions { optional TestRequired single = 1000; repeated TestRequired multi = 1001; } // Pad the field count to 32 so that we can test that IsInitialized() // properly checks multiple elements of has_bits_. optional int32 dummy4 = 4; optional int32 dummy5 = 5; optional int32 dummy6 = 6; optional int32 dummy7 = 7; optional int32 dummy8 = 8; optional int32 dummy9 = 9; optional int32 dummy10 = 10; optional int32 dummy11 = 11; optional int32 dummy12 = 12; optional int32 dummy13 = 13; optional int32 dummy14 = 14; optional int32 dummy15 = 15; optional int32 dummy16 = 16; optional int32 dummy17 = 17; optional int32 dummy18 = 18; optional int32 dummy19 = 19; optional int32 dummy20 = 20; optional int32 dummy21 = 21; optional int32 dummy22 = 22; optional int32 dummy23 = 23; optional int32 dummy24 = 24; optional int32 dummy25 = 25; optional int32 dummy26 = 26; optional int32 dummy27 = 27; optional int32 dummy28 = 28; optional int32 dummy29 = 29; optional int32 dummy30 = 30; optional int32 dummy31 = 31; optional int32 dummy32 = 32; required int32 c = 33; } message TestRequiredForeign { optional TestRequired optional_message = 1; repeated TestRequired repeated_message = 2; optional int32 dummy = 3; } // Test that we can use NestedMessage from outside TestAllTypes. message TestForeignNested { optional TestAllTypes.NestedMessage foreign_nested = 1; } // TestEmptyMessage is used to test unknown field support. message TestEmptyMessage { } // Like above, but declare all field numbers as potential extensions. No // actual extensions should ever be defined for this type. message TestEmptyMessageWithExtensions { extensions 1 to max; } message TestMultipleExtensionRanges { extensions 42; extensions 4143 to 4243; extensions 65536 to max; } // Test that really large tag numbers don't break anything. message TestReallyLargeTagNumber { // The largest possible tag number is 2^28 - 1, since the wire format uses // three bits to communicate wire type. optional int32 a = 1; optional int32 bb = 268435455; } message TestRecursiveMessage { optional TestRecursiveMessage a = 1; optional int32 i = 2; } // Test that mutual recursion works. message TestMutualRecursionA { optional TestMutualRecursionB bb = 1; } message TestMutualRecursionB { optional TestMutualRecursionA a = 1; optional int32 optional_int32 = 2; } // Test that groups have disjoint field numbers from their siblings and // parents. This is NOT possible in proto1; only google.protobuf. When attempting // to compile with proto1, this will emit an error; so we only include it // in protobuf_unittest_proto. message TestDupFieldNumber { // NO_PROTO1 optional int32 a = 1; // NO_PROTO1 optional group Foo = 2 { optional int32 a = 1; } // NO_PROTO1 optional group Bar = 3 { optional int32 a = 1; } // NO_PROTO1 } // NO_PROTO1 // Additional messages for testing lazy fields. message TestEagerMessage { optional TestAllTypes sub_message = 1 [lazy=false]; } message TestLazyMessage { optional TestAllTypes sub_message = 1 [lazy=true]; } // Needed for a Python test. message TestNestedMessageHasBits { message NestedMessage { repeated int32 nestedmessage_repeated_int32 = 1; repeated ForeignMessage nestedmessage_repeated_foreignmessage = 2; } optional NestedMessage optional_nested_message = 1; } // Test an enum that has multiple values with the same number. enum TestEnumWithDupValue { option allow_alias = true; FOO1 = 1; BAR1 = 2; BAZ = 3; FOO2 = 1; BAR2 = 2; } // Test an enum with large, unordered values. enum TestSparseEnum { SPARSE_A = 123; SPARSE_B = 62374; SPARSE_C = 12589234; SPARSE_D = -15; SPARSE_E = -53452; SPARSE_F = 0; SPARSE_G = 2; } // Test message with CamelCase field names. This violates Protocol Buffer // standard style. message TestCamelCaseFieldNames { optional int32 PrimitiveField = 1; optional string StringField = 2; optional ForeignEnum EnumField = 3; optional ForeignMessage MessageField = 4; optional string StringPieceField = 5 [ctype=STRING_PIECE]; optional string CordField = 6 [ctype=CORD]; repeated int32 RepeatedPrimitiveField = 7; repeated string RepeatedStringField = 8; repeated ForeignEnum RepeatedEnumField = 9; repeated ForeignMessage RepeatedMessageField = 10; repeated string RepeatedStringPieceField = 11 [ctype=STRING_PIECE]; repeated string RepeatedCordField = 12 [ctype=CORD]; } // We list fields out of order, to ensure that we're using field number and not // field index to determine serialization order. message TestFieldOrderings { optional string my_string = 11; extensions 2 to 10; optional int64 my_int = 1; extensions 12 to 100; optional float my_float = 101; message NestedMessage { optional int64 oo = 2; // The field name "b" fails to compile in proto1 because it conflicts with // a local variable named "b" in one of the generated methods. Doh. // This file needs to compile in proto1 to test backwards-compatibility. optional int32 bb = 1; } optional NestedMessage optional_nested_message = 200; } extend TestFieldOrderings { optional string my_extension_string = 50; optional int32 my_extension_int = 5; } message TestExtremeDefaultValues { optional bytes escaped_bytes = 1 [default = "\0\001\a\b\f\n\r\t\v\\\'\"\xfe"]; optional uint32 large_uint32 = 2 [default = 0xFFFFFFFF]; optional uint64 large_uint64 = 3 [default = 0xFFFFFFFFFFFFFFFF]; optional int32 small_int32 = 4 [default = -0x7FFFFFFF]; optional int64 small_int64 = 5 [default = -0x7FFFFFFFFFFFFFFF]; optional int32 really_small_int32 = 21 [default = -0x80000000]; optional int64 really_small_int64 = 22 [default = -0x8000000000000000]; // The default value here is UTF-8 for "\u1234". (We could also just type // the UTF-8 text directly into this text file rather than escape it, but // lots of people use editors that would be confused by this.) optional string utf8_string = 6 [default = "\341\210\264"]; // Tests for single-precision floating-point values. optional float zero_float = 7 [default = 0]; optional float one_float = 8 [default = 1]; optional float small_float = 9 [default = 1.5]; optional float negative_one_float = 10 [default = -1]; optional float negative_float = 11 [default = -1.5]; // Using exponents optional float large_float = 12 [default = 2E8]; optional float small_negative_float = 13 [default = -8e-28]; // Text for nonfinite floating-point values. optional double inf_double = 14 [default = inf]; optional double neg_inf_double = 15 [default = -inf]; optional double nan_double = 16 [default = nan]; optional float inf_float = 17 [default = inf]; optional float neg_inf_float = 18 [default = -inf]; optional float nan_float = 19 [default = nan]; // Tests for C++ trigraphs. // Trigraphs should be escaped in C++ generated files, but they should not be // escaped for other languages. // Note that in .proto file, "\?" is a valid way to escape ? in string // literals. optional string cpp_trigraph = 20 [default = "? \? ?? \?? \??? ??/ ?\?-"]; // String defaults containing the character '\000' optional string string_with_zero = 23 [default = "hel\000lo"]; optional bytes bytes_with_zero = 24 [default = "wor\000ld"]; optional string string_piece_with_zero = 25 [ctype=STRING_PIECE, default="ab\000c"]; optional string cord_with_zero = 26 [ctype=CORD, default="12\0003"]; optional string replacement_string = 27 [default="${unknown}"]; } message SparseEnumMessage { optional TestSparseEnum sparse_enum = 1; } // Test String and Bytes: string is for valid UTF-8 strings message OneString { optional string data = 1; } message MoreString { repeated string data = 1; } message OneBytes { optional bytes data = 1; } message MoreBytes { repeated bytes data = 1; } // Test int32, uint32, int64, uint64, and bool are all compatible message Int32Message { optional int32 data = 1; } message Uint32Message { optional uint32 data = 1; } message Int64Message { optional int64 data = 1; } message Uint64Message { optional uint64 data = 1; } message BoolMessage { optional bool data = 1; } // Test oneofs. message TestOneof { oneof foo { int32 foo_int = 1; string foo_string = 2; TestAllTypes foo_message = 3; group FooGroup = 4 { optional int32 a = 5; optional string b = 6; } } } message TestOneofBackwardsCompatible { optional int32 foo_int = 1; optional string foo_string = 2; optional TestAllTypes foo_message = 3; optional group FooGroup = 4 { optional int32 a = 5; optional string b = 6; } } message TestOneof2 { oneof foo { int32 foo_int = 1; string foo_string = 2; string foo_cord = 3 [ctype=CORD]; string foo_string_piece = 4 [ctype=STRING_PIECE]; bytes foo_bytes = 5; NestedEnum foo_enum = 6; NestedMessage foo_message = 7; group FooGroup = 8 { optional int32 a = 9; optional string b = 10; } NestedMessage foo_lazy_message = 11 [lazy=true]; } oneof bar { int32 bar_int = 12 [default = 5]; string bar_string = 13 [default = "STRING"]; string bar_cord = 14 [ctype=CORD, default = "CORD"]; string bar_string_piece = 15 [ctype=STRING_PIECE, default = "SPIECE"]; bytes bar_bytes = 16 [default = "BYTES"]; NestedEnum bar_enum = 17 [default = BAR]; } optional int32 baz_int = 18; optional string baz_string = 19 [default = "BAZ"]; message NestedMessage { optional int64 qux_int = 1; repeated int32 corge_int = 2; } enum NestedEnum { FOO = 1; BAR = 2; BAZ = 3; } } message TestRequiredOneof { oneof foo { int32 foo_int = 1; string foo_string = 2; NestedMessage foo_message = 3; } message NestedMessage { required double required_double = 1; } } // Test messages for packed fields message TestPackedTypes { repeated int32 packed_int32 = 90 [packed = true]; repeated int64 packed_int64 = 91 [packed = true]; repeated uint32 packed_uint32 = 92 [packed = true]; repeated uint64 packed_uint64 = 93 [packed = true]; repeated sint32 packed_sint32 = 94 [packed = true]; repeated sint64 packed_sint64 = 95 [packed = true]; repeated fixed32 packed_fixed32 = 96 [packed = true]; repeated fixed64 packed_fixed64 = 97 [packed = true]; repeated sfixed32 packed_sfixed32 = 98 [packed = true]; repeated sfixed64 packed_sfixed64 = 99 [packed = true]; repeated float packed_float = 100 [packed = true]; repeated double packed_double = 101 [packed = true]; repeated bool packed_bool = 102 [packed = true]; repeated ForeignEnum packed_enum = 103 [packed = true]; } // A message with the same fields as TestPackedTypes, but without packing. Used // to test packed <-> unpacked wire compatibility. message TestUnpackedTypes { repeated int32 unpacked_int32 = 90 [packed = false]; repeated int64 unpacked_int64 = 91 [packed = false]; repeated uint32 unpacked_uint32 = 92 [packed = false]; repeated uint64 unpacked_uint64 = 93 [packed = false]; repeated sint32 unpacked_sint32 = 94 [packed = false]; repeated sint64 unpacked_sint64 = 95 [packed = false]; repeated fixed32 unpacked_fixed32 = 96 [packed = false]; repeated fixed64 unpacked_fixed64 = 97 [packed = false]; repeated sfixed32 unpacked_sfixed32 = 98 [packed = false]; repeated sfixed64 unpacked_sfixed64 = 99 [packed = false]; repeated float unpacked_float = 100 [packed = false]; repeated double unpacked_double = 101 [packed = false]; repeated bool unpacked_bool = 102 [packed = false]; repeated ForeignEnum unpacked_enum = 103 [packed = false]; } message TestPackedExtensions { extensions 1 to max; } extend TestPackedExtensions { repeated int32 packed_int32_extension = 90 [packed = true]; repeated int64 packed_int64_extension = 91 [packed = true]; repeated uint32 packed_uint32_extension = 92 [packed = true]; repeated uint64 packed_uint64_extension = 93 [packed = true]; repeated sint32 packed_sint32_extension = 94 [packed = true]; repeated sint64 packed_sint64_extension = 95 [packed = true]; repeated fixed32 packed_fixed32_extension = 96 [packed = true]; repeated fixed64 packed_fixed64_extension = 97 [packed = true]; repeated sfixed32 packed_sfixed32_extension = 98 [packed = true]; repeated sfixed64 packed_sfixed64_extension = 99 [packed = true]; repeated float packed_float_extension = 100 [packed = true]; repeated double packed_double_extension = 101 [packed = true]; repeated bool packed_bool_extension = 102 [packed = true]; repeated ForeignEnum packed_enum_extension = 103 [packed = true]; } message TestUnpackedExtensions { extensions 1 to max; } extend TestUnpackedExtensions { repeated int32 unpacked_int32_extension = 90 [packed = false]; repeated int64 unpacked_int64_extension = 91 [packed = false]; repeated uint32 unpacked_uint32_extension = 92 [packed = false]; repeated uint64 unpacked_uint64_extension = 93 [packed = false]; repeated sint32 unpacked_sint32_extension = 94 [packed = false]; repeated sint64 unpacked_sint64_extension = 95 [packed = false]; repeated fixed32 unpacked_fixed32_extension = 96 [packed = false]; repeated fixed64 unpacked_fixed64_extension = 97 [packed = false]; repeated sfixed32 unpacked_sfixed32_extension = 98 [packed = false]; repeated sfixed64 unpacked_sfixed64_extension = 99 [packed = false]; repeated float unpacked_float_extension = 100 [packed = false]; repeated double unpacked_double_extension = 101 [packed = false]; repeated bool unpacked_bool_extension = 102 [packed = false]; repeated ForeignEnum unpacked_enum_extension = 103 [packed = false]; } // Used by ExtensionSetTest/DynamicExtensions. The test actually builds // a set of extensions to TestAllExtensions dynamically, based on the fields // of this message type. message TestDynamicExtensions { enum DynamicEnumType { DYNAMIC_FOO = 2200; DYNAMIC_BAR = 2201; DYNAMIC_BAZ = 2202; } message DynamicMessageType { optional int32 dynamic_field = 2100; } optional fixed32 scalar_extension = 2000; optional ForeignEnum enum_extension = 2001; optional DynamicEnumType dynamic_enum_extension = 2002; optional ForeignMessage message_extension = 2003; optional DynamicMessageType dynamic_message_extension = 2004; repeated string repeated_extension = 2005; repeated sint32 packed_extension = 2006 [packed = true]; } message TestRepeatedScalarDifferentTagSizes { // Parsing repeated fixed size values used to fail. This message needs to be // used in order to get a tag of the right size; all of the repeated fields // in TestAllTypes didn't trigger the check. repeated fixed32 repeated_fixed32 = 12; // Check for a varint type, just for good measure. repeated int32 repeated_int32 = 13; // These have two-byte tags. repeated fixed64 repeated_fixed64 = 2046; repeated int64 repeated_int64 = 2047; // Three byte tags. repeated float repeated_float = 262142; repeated uint64 repeated_uint64 = 262143; } // Test that if an optional or required message/group field appears multiple // times in the input, they need to be merged. message TestParsingMerge { // RepeatedFieldsGenerator defines matching field types as TestParsingMerge, // except that all fields are repeated. In the tests, we will serialize the // RepeatedFieldsGenerator to bytes, and parse the bytes to TestParsingMerge. // Repeated fields in RepeatedFieldsGenerator are expected to be merged into // the corresponding required/optional fields in TestParsingMerge. message RepeatedFieldsGenerator { repeated TestAllTypes field1 = 1; repeated TestAllTypes field2 = 2; repeated TestAllTypes field3 = 3; repeated group Group1 = 10 { optional TestAllTypes field1 = 11; } repeated group Group2 = 20 { optional TestAllTypes field1 = 21; } repeated TestAllTypes ext1 = 1000; repeated TestAllTypes ext2 = 1001; } required TestAllTypes required_all_types = 1; optional TestAllTypes optional_all_types = 2; repeated TestAllTypes repeated_all_types = 3; optional group OptionalGroup = 10 { optional TestAllTypes optional_group_all_types = 11; } repeated group RepeatedGroup = 20 { optional TestAllTypes repeated_group_all_types = 21; } extensions 1000 to max; extend TestParsingMerge { optional TestAllTypes optional_ext = 1000; repeated TestAllTypes repeated_ext = 1001; } } message TestCommentInjectionMessage { // */ <- This should not close the generated doc comment optional string a = 1 [default="*/ <- Neither should this."]; } // Test that RPC services work. message FooRequest {} message FooResponse {} message FooClientMessage {} message FooServerMessage{} service TestService { rpc Foo(FooRequest) returns (FooResponse); rpc Bar(BarRequest) returns (BarResponse); } message BarRequest {} message BarResponse {} message TestJsonName { optional int32 field_name1 = 1; optional int32 fieldName2 = 2; optional int32 FieldName3 = 3; optional int32 _field_name4 = 4; optional int32 FIELD_NAME5 = 5; optional int32 field_name6 = 6 [json_name = "@type"]; } message TestHugeFieldNumbers { optional int32 optional_int32 = 536870000; optional int32 fixed_32 = 536870001; repeated int32 repeated_int32 = 536870002 [packed = false]; repeated int32 packed_int32 = 536870003 [packed = true]; optional ForeignEnum optional_enum = 536870004; optional string optional_string = 536870005; optional bytes optional_bytes = 536870006; optional ForeignMessage optional_message = 536870007; optional group OptionalGroup = 536870008 { optional int32 group_a = 536870009; } map string_string_map = 536870010; oneof oneof_field { uint32 oneof_uint32 = 536870011; TestAllTypes oneof_test_all_types = 536870012; string oneof_string = 536870013; bytes oneof_bytes = 536870014; } extensions 536860000 to 536869999; } extend TestHugeFieldNumbers { optional TestAllTypes test_all_types = 536860000; }