/* * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ namespace c_glib TTest namespace cpp thrift.test.debug namespace java thrift.test struct Doubles { 1: double nan, 2: double inf, 3: double neginf, 4: double repeating, 5: double big, 6: double small, 7: double zero, 8: double negzero, } struct OneOfEach { 1: bool im_true, 2: bool im_false, 3: byte a_bite = 0x7f, 4: i16 integer16 = 0x7fff, 5: i32 integer32, 6: i64 integer64 = 10000000000, 7: double double_precision, 8: string some_characters, 9: string zomg_unicode, 10: bool what_who, 11: binary base64, 12: list byte_list = [1, 2, 3], 13: list i16_list = [1,2,3], 14: list i64_list = [1,2,3] } struct Bonk { 1: i32 type, 2: string message, } struct Nesting { 1: Bonk my_bonk, 2: OneOfEach my_ooe, } struct HolyMoley { 1: list big, 2: set> contain, 3: map> bonks, } struct Backwards { 2: i32 first_tag2, 1: i32 second_tag1, } struct Empty { } struct Wrapper { 1: Empty foo } struct RandomStuff { 1: i32 a, 2: i32 b, 3: i32 c, 4: i32 d, 5: list myintlist, 6: map maps, 7: i64 bigint, 8: double triple, } struct Base64 { 1: i32 a, 2: binary b1, 3: binary b2, 4: binary b3, 5: binary b4, 6: binary b5, 7: binary b6, } struct CompactProtoTestStruct { // primitive fields 1: byte a_byte; 2: i16 a_i16; 3: i32 a_i32; 4: i64 a_i64; 5: double a_double; 6: string a_string; 7: binary a_binary; 8: bool true_field; 9: bool false_field; 10: Empty empty_struct_field; // primitives in lists 11: list byte_list; 12: list i16_list; 13: list i32_list; 14: list i64_list; 15: list double_list; 16: list string_list; 17: list binary_list; 18: list boolean_list; 19: list struct_list; // primitives in sets 20: set byte_set; 21: set i16_set; 22: set i32_set; 23: set i64_set; 24: set double_set; 25: set string_set; 26: set binary_set; 27: set boolean_set; 28: set struct_set; // maps // primitives as keys 29: map byte_byte_map; 30: map i16_byte_map; 31: map i32_byte_map; 32: map i64_byte_map; 33: map double_byte_map; 34: map string_byte_map; 35: map binary_byte_map; 36: map boolean_byte_map; // primitives as values 37: map byte_i16_map; 38: map byte_i32_map; 39: map byte_i64_map; 40: map byte_double_map; 41: map byte_string_map; 42: map byte_binary_map; 43: map byte_boolean_map; // collections as keys 44: map, byte> list_byte_map; 45: map, byte> set_byte_map; 46: map, byte> map_byte_map; // collections as values 47: map> byte_map_map; 48: map> byte_set_map; 49: map> byte_list_map; } // To be used to test the serialization of an empty map struct SingleMapTestStruct { 1: required map i32_map; } const CompactProtoTestStruct COMPACT_TEST = { 'a_byte' : 127, 'a_i16' : 32000, 'a_i32' : 1000000000, 'a_i64' : 0xffffffffff, 'a_double' : 5.6789, 'a_string' : "my string", //'a_binary,' 'true_field' : 1, 'false_field' : 0, 'empty_struct_field' : {}, 'byte_list' : [-127, -1, 0, 1, 127], 'i16_list' : [-1, 0, 1, 0x7fff], 'i32_list' : [-1, 0, 0xff, 0xffff, 0xffffff, 0x7fffffff], 'i64_list' : [-1, 0, 0xff, 0xffff, 0xffffff, 0xffffffff, 0xffffffffff, 0xffffffffffff, 0xffffffffffffff, 0x7fffffffffffffff], 'double_list' : [0.1, 0.2, 0.3], 'string_list' : ["first", "second", "third"], //'binary_list,' 'boolean_list' : [1, 1, 1, 0, 0, 0], 'struct_list' : [{}, {}], 'byte_set' : [-127, -1, 0, 1, 127], 'i16_set' : [-1, 0, 1, 0x7fff], 'i32_set' : [1, 2, 3], 'i64_set' : [-1, 0, 0xff, 0xffff, 0xffffff, 0xffffffff, 0xffffffffff, 0xffffffffffff, 0xffffffffffffff, 0x7fffffffffffffff], 'double_set' : [0.1, 0.2, 0.3], 'string_set' : ["first", "second", "third"], //'binary_set,' 'boolean_set' : [1, 0], 'struct_set' : [{}], 'byte_byte_map' : {1 : 2}, 'i16_byte_map' : {1 : 1, -1 : 1, 0x7fff : 1}, 'i32_byte_map' : {1 : 1, -1 : 1, 0x7fffffff : 1}, 'i64_byte_map' : {0 : 1, 1 : 1, -1 : 1, 0x7fffffffffffffff : 1}, 'double_byte_map' : {-1.1 : 1, 1.1 : 1}, 'string_byte_map' : {"first" : 1, "second" : 2, "third" : 3, "" : 0}, //'binary_byte_map,' 'boolean_byte_map' : {1 : 1, 0 : 0}, 'byte_i16_map' : {1 : 1, 2 : -1, 3 : 0x7fff}, 'byte_i32_map' : {1 : 1, 2 : -1, 3 : 0x7fffffff}, 'byte_i64_map' : {1 : 1, 2 : -1, 3 : 0x7fffffffffffffff}, 'byte_double_map' : {1 : 0.1, 2 : -0.1, 3 : 1000000.1}, 'byte_string_map' : {1 : "", 2 : "blah", 3 : "loooooooooooooong string"}, //'byte_binary_map,' 'byte_boolean_map' : {1 : 1, 2 : 0}, 'list_byte_map' : {[1, 2, 3] : 1, [0, 1] : 2, [] : 0}, 'set_byte_map' : {[1, 2, 3] : 1, [0, 1] : 2, [] : 0}, 'map_byte_map' : {{1 : 1} : 1, {2 : 2} : 2, {} : 0}, 'byte_map_map' : {0 : {}, 1 : {1 : 1}, 2 : {1 : 1, 2 : 2}}, 'byte_set_map' : {0 : [], 1 : [1], 2 : [1, 2]}, 'byte_list_map' : {0 : [], 1 : [1], 2 : [1, 2]}, } const i32 MYCONST = 2 exception ExceptionWithAMap { 1: string blah; 2: map map_field; } service ServiceForExceptionWithAMap { void methodThatThrowsAnException() throws (1: ExceptionWithAMap xwamap); } service Srv { i32 Janky(1: i32 arg); // return type only methods void voidMethod(); i32 primitiveMethod(); CompactProtoTestStruct structMethod(); void methodWithDefaultArgs(1: i32 something = MYCONST); oneway void onewayMethod(); } service Inherited extends Srv { i32 identity(1: i32 arg) } service EmptyService {} // The only purpose of this thing is to increase the size of the generated code // so that ZlibTest has more highly compressible data to play with. struct BlowUp { 1: map,set>> b1; 2: map,set>> b2; 3: map,set>> b3; 4: map,set>> b4; } struct ReverseOrderStruct { 4: string first; 3: i16 second; 2: i32 third; 1: i64 fourth; } service ReverseOrderService { void myMethod(4: string first, 3: i16 second, 2: i32 third, 1: i64 fourth); } enum SomeEnum { ONE = 1 TWO = 2 } /** This is a docstring on a constant! */ const SomeEnum MY_SOME_ENUM = SomeEnum.ONE const SomeEnum MY_SOME_ENUM_1 = 1 /*const SomeEnum MY_SOME_ENUM_2 = 7*/ const map MY_ENUM_MAP = { SomeEnum.ONE : SomeEnum.TWO } struct StructWithSomeEnum { 1: SomeEnum blah; } const map EXTRA_CRAZY_MAP = { SomeEnum.ONE : {"blah" : SomeEnum.TWO} } union TestUnion { /** * A doc string */ 1: string string_field; 2: i32 i32_field; 3: OneOfEach struct_field; 4: list struct_list; 5: i32 other_i32_field; 6: SomeEnum enum_field; 7: set i32_set; 8: map i32_map; } union TestUnionMinusStringField { 2: i32 i32_field; 3: OneOfEach struct_field; 4: list struct_list; 5: i32 other_i32_field; 6: SomeEnum enum_field; 7: set i32_set; 8: map i32_map; } union ComparableUnion { 1: string string_field; 2: binary binary_field; } struct StructWithAUnion { 1: TestUnion test_union; } struct PrimitiveThenStruct { 1: i32 blah; 2: i32 blah2; 3: Backwards bw; } typedef map SomeMap struct StructWithASomemap { 1: required SomeMap somemap_field; } struct BigFieldIdStruct { 1: string field1; 45: string field2; } struct BreaksRubyCompactProtocol { 1: string field1; 2: BigFieldIdStruct field2; 3: i32 field3; }