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/*
* 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 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 = 200,
4: i16 integer16 = 33000,
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> byte_list = [1, 2, 3],
13: list<i16> i16_list = [1,2,3],
14: list<i64> 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<OneOfEach> big,
2: set<list<string>> contain,
3: map<string,list<Bonk>> 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<i32> myintlist,
6: map<i32,Wrapper> 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> byte_list;
12: list<i16> i16_list;
13: list<i32> i32_list;
14: list<i64> i64_list;
15: list<double> double_list;
16: list<string> string_list;
17: list<binary> binary_list;
18: list<bool> boolean_list;
19: list<Empty> struct_list;
// primitives in sets
20: set<byte> byte_set;
21: set<i16> i16_set;
22: set<i32> i32_set;
23: set<i64> i64_set;
24: set<double> double_set;
25: set<string> string_set;
26: set<binary> binary_set;
27: set<bool> boolean_set;
28: set<Empty> struct_set;
// maps
// primitives as keys
29: map<byte, byte> byte_byte_map;
30: map<i16, byte> i16_byte_map;
31: map<i32, byte> i32_byte_map;
32: map<i64, byte> i64_byte_map;
33: map<double, byte> double_byte_map;
34: map<string, byte> string_byte_map;
35: map<binary, byte> binary_byte_map;
36: map<bool, byte> boolean_byte_map;
// primitives as values
37: map<byte, i16> byte_i16_map;
38: map<byte, i32> byte_i32_map;
39: map<byte, i64> byte_i64_map;
40: map<byte, double> byte_double_map;
41: map<byte, string> byte_string_map;
42: map<byte, binary> byte_binary_map;
43: map<byte, bool> byte_boolean_map;
// collections as keys
44: map<list<byte>, byte> list_byte_map;
45: map<set<byte>, byte> set_byte_map;
46: map<map<byte,byte>, byte> map_byte_map;
// collections as values
47: map<byte, map<byte,byte>> byte_map_map;
48: map<byte, set<byte>> byte_set_map;
49: map<byte, list<byte>> byte_list_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]},
}
service Srv {
i32 Janky(1: i32 arg);
// return type only methods
void voidMethod();
i32 primitiveMethod();
CompactProtoTestStruct structMethod();
}
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<list<i32>,set<map<i32,string>>> b1;
2: map<list<i32>,set<map<i32,string>>> b2;
3: map<list<i32>,set<map<i32,string>>> b3;
4: map<list<i32>,set<map<i32,string>>> 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);
}