| #! /usr/bin/env python |
| # |
| # 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. |
| |
| """Test for google.protobuf.json_format.""" |
| |
| __author__ = 'jieluo@google.com (Jie Luo)' |
| |
| import json |
| import math |
| import sys |
| |
| try: |
| import unittest2 as unittest #PY26 |
| except ImportError: |
| import unittest |
| |
| from google.protobuf import any_pb2 |
| from google.protobuf import duration_pb2 |
| from google.protobuf import field_mask_pb2 |
| from google.protobuf import struct_pb2 |
| from google.protobuf import timestamp_pb2 |
| from google.protobuf import wrappers_pb2 |
| from google.protobuf.internal import well_known_types |
| from google.protobuf import json_format |
| from google.protobuf.util import json_format_proto3_pb2 |
| |
| |
| class JsonFormatBase(unittest.TestCase): |
| |
| def FillAllFields(self, message): |
| message.int32_value = 20 |
| message.int64_value = -20 |
| message.uint32_value = 3120987654 |
| message.uint64_value = 12345678900 |
| message.float_value = float('-inf') |
| message.double_value = 3.1415 |
| message.bool_value = True |
| message.string_value = 'foo' |
| message.bytes_value = b'bar' |
| message.message_value.value = 10 |
| message.enum_value = json_format_proto3_pb2.BAR |
| # Repeated |
| message.repeated_int32_value.append(0x7FFFFFFF) |
| message.repeated_int32_value.append(-2147483648) |
| message.repeated_int64_value.append(9007199254740992) |
| message.repeated_int64_value.append(-9007199254740992) |
| message.repeated_uint32_value.append(0xFFFFFFF) |
| message.repeated_uint32_value.append(0x7FFFFFF) |
| message.repeated_uint64_value.append(9007199254740992) |
| message.repeated_uint64_value.append(9007199254740991) |
| message.repeated_float_value.append(0) |
| |
| message.repeated_double_value.append(1E-15) |
| message.repeated_double_value.append(float('inf')) |
| message.repeated_bool_value.append(True) |
| message.repeated_bool_value.append(False) |
| message.repeated_string_value.append('Few symbols!#$,;') |
| message.repeated_string_value.append('bar') |
| message.repeated_bytes_value.append(b'foo') |
| message.repeated_bytes_value.append(b'bar') |
| message.repeated_message_value.add().value = 10 |
| message.repeated_message_value.add().value = 11 |
| message.repeated_enum_value.append(json_format_proto3_pb2.FOO) |
| message.repeated_enum_value.append(json_format_proto3_pb2.BAR) |
| self.message = message |
| |
| def CheckParseBack(self, message, parsed_message): |
| json_format.Parse(json_format.MessageToJson(message), |
| parsed_message) |
| self.assertEqual(message, parsed_message) |
| |
| def CheckError(self, text, error_message): |
| message = json_format_proto3_pb2.TestMessage() |
| self.assertRaisesRegexp( |
| json_format.ParseError, |
| error_message, |
| json_format.Parse, text, message) |
| |
| |
| class JsonFormatTest(JsonFormatBase): |
| |
| def testEmptyMessageToJson(self): |
| message = json_format_proto3_pb2.TestMessage() |
| self.assertEqual(json_format.MessageToJson(message), |
| '{}') |
| parsed_message = json_format_proto3_pb2.TestMessage() |
| self.CheckParseBack(message, parsed_message) |
| |
| def testPartialMessageToJson(self): |
| message = json_format_proto3_pb2.TestMessage( |
| string_value='test', |
| repeated_int32_value=[89, 4]) |
| self.assertEqual(json.loads(json_format.MessageToJson(message)), |
| json.loads('{"stringValue": "test", ' |
| '"repeatedInt32Value": [89, 4]}')) |
| parsed_message = json_format_proto3_pb2.TestMessage() |
| self.CheckParseBack(message, parsed_message) |
| |
| def testAllFieldsToJson(self): |
| message = json_format_proto3_pb2.TestMessage() |
| text = ('{"int32Value": 20, ' |
| '"int64Value": "-20", ' |
| '"uint32Value": 3120987654,' |
| '"uint64Value": "12345678900",' |
| '"floatValue": "-Infinity",' |
| '"doubleValue": 3.1415,' |
| '"boolValue": true,' |
| '"stringValue": "foo",' |
| '"bytesValue": "YmFy",' |
| '"messageValue": {"value": 10},' |
| '"enumValue": "BAR",' |
| '"repeatedInt32Value": [2147483647, -2147483648],' |
| '"repeatedInt64Value": ["9007199254740992", "-9007199254740992"],' |
| '"repeatedUint32Value": [268435455, 134217727],' |
| '"repeatedUint64Value": ["9007199254740992", "9007199254740991"],' |
| '"repeatedFloatValue": [0],' |
| '"repeatedDoubleValue": [1e-15, "Infinity"],' |
| '"repeatedBoolValue": [true, false],' |
| '"repeatedStringValue": ["Few symbols!#$,;", "bar"],' |
| '"repeatedBytesValue": ["Zm9v", "YmFy"],' |
| '"repeatedMessageValue": [{"value": 10}, {"value": 11}],' |
| '"repeatedEnumValue": ["FOO", "BAR"]' |
| '}') |
| self.FillAllFields(message) |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message)), |
| json.loads(text)) |
| parsed_message = json_format_proto3_pb2.TestMessage() |
| json_format.Parse(text, parsed_message) |
| self.assertEqual(message, parsed_message) |
| |
| def testJsonEscapeString(self): |
| message = json_format_proto3_pb2.TestMessage() |
| if sys.version_info[0] < 3: |
| message.string_value = '&\n<\"\r>\b\t\f\\\001/\xe2\x80\xa8\xe2\x80\xa9' |
| else: |
| message.string_value = '&\n<\"\r>\b\t\f\\\001/' |
| message.string_value += (b'\xe2\x80\xa8\xe2\x80\xa9').decode('utf-8') |
| self.assertEqual( |
| json_format.MessageToJson(message), |
| '{\n "stringValue": ' |
| '"&\\n<\\\"\\r>\\b\\t\\f\\\\\\u0001/\\u2028\\u2029"\n}') |
| parsed_message = json_format_proto3_pb2.TestMessage() |
| self.CheckParseBack(message, parsed_message) |
| text = u'{"int32Value": "\u0031"}' |
| json_format.Parse(text, message) |
| self.assertEqual(message.int32_value, 1) |
| |
| def testAlwaysSeriliaze(self): |
| message = json_format_proto3_pb2.TestMessage( |
| string_value='foo') |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, True)), |
| json.loads('{' |
| '"repeatedStringValue": [],' |
| '"stringValue": "foo",' |
| '"repeatedBoolValue": [],' |
| '"repeatedUint32Value": [],' |
| '"repeatedInt32Value": [],' |
| '"enumValue": "FOO",' |
| '"int32Value": 0,' |
| '"floatValue": 0,' |
| '"int64Value": "0",' |
| '"uint32Value": 0,' |
| '"repeatedBytesValue": [],' |
| '"repeatedUint64Value": [],' |
| '"repeatedDoubleValue": [],' |
| '"bytesValue": "",' |
| '"boolValue": false,' |
| '"repeatedEnumValue": [],' |
| '"uint64Value": "0",' |
| '"doubleValue": 0,' |
| '"repeatedFloatValue": [],' |
| '"repeatedInt64Value": [],' |
| '"repeatedMessageValue": []}')) |
| parsed_message = json_format_proto3_pb2.TestMessage() |
| self.CheckParseBack(message, parsed_message) |
| |
| def testMapFields(self): |
| message = json_format_proto3_pb2.TestMap() |
| message.bool_map[True] = 1 |
| message.bool_map[False] = 2 |
| message.int32_map[1] = 2 |
| message.int32_map[2] = 3 |
| message.int64_map[1] = 2 |
| message.int64_map[2] = 3 |
| message.uint32_map[1] = 2 |
| message.uint32_map[2] = 3 |
| message.uint64_map[1] = 2 |
| message.uint64_map[2] = 3 |
| message.string_map['1'] = 2 |
| message.string_map['null'] = 3 |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, True)), |
| json.loads('{' |
| '"boolMap": {"false": 2, "true": 1},' |
| '"int32Map": {"1": 2, "2": 3},' |
| '"int64Map": {"1": 2, "2": 3},' |
| '"uint32Map": {"1": 2, "2": 3},' |
| '"uint64Map": {"1": 2, "2": 3},' |
| '"stringMap": {"1": 2, "null": 3}' |
| '}')) |
| parsed_message = json_format_proto3_pb2.TestMap() |
| self.CheckParseBack(message, parsed_message) |
| |
| def testOneofFields(self): |
| message = json_format_proto3_pb2.TestOneof() |
| # Always print does not affect oneof fields. |
| self.assertEqual( |
| json_format.MessageToJson(message, True), |
| '{}') |
| message.oneof_int32_value = 0 |
| self.assertEqual( |
| json_format.MessageToJson(message, True), |
| '{\n' |
| ' "oneofInt32Value": 0\n' |
| '}') |
| parsed_message = json_format_proto3_pb2.TestOneof() |
| self.CheckParseBack(message, parsed_message) |
| |
| def testTimestampMessage(self): |
| message = json_format_proto3_pb2.TestTimestamp() |
| message.value.seconds = 0 |
| message.value.nanos = 0 |
| message.repeated_value.add().seconds = 20 |
| message.repeated_value[0].nanos = 1 |
| message.repeated_value.add().seconds = 0 |
| message.repeated_value[1].nanos = 10000 |
| message.repeated_value.add().seconds = 100000000 |
| message.repeated_value[2].nanos = 0 |
| # Maximum time |
| message.repeated_value.add().seconds = 253402300799 |
| message.repeated_value[3].nanos = 999999999 |
| # Minimum time |
| message.repeated_value.add().seconds = -62135596800 |
| message.repeated_value[4].nanos = 0 |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, True)), |
| json.loads('{' |
| '"value": "1970-01-01T00:00:00Z",' |
| '"repeatedValue": [' |
| ' "1970-01-01T00:00:20.000000001Z",' |
| ' "1970-01-01T00:00:00.000010Z",' |
| ' "1973-03-03T09:46:40Z",' |
| ' "9999-12-31T23:59:59.999999999Z",' |
| ' "0001-01-01T00:00:00Z"' |
| ']' |
| '}')) |
| parsed_message = json_format_proto3_pb2.TestTimestamp() |
| self.CheckParseBack(message, parsed_message) |
| text = (r'{"value": "1970-01-01T00:00:00.01+08:00",' |
| r'"repeatedValue":[' |
| r' "1970-01-01T00:00:00.01+08:30",' |
| r' "1970-01-01T00:00:00.01-01:23"]}') |
| json_format.Parse(text, parsed_message) |
| self.assertEqual(parsed_message.value.seconds, -8 * 3600) |
| self.assertEqual(parsed_message.value.nanos, 10000000) |
| self.assertEqual(parsed_message.repeated_value[0].seconds, -8.5 * 3600) |
| self.assertEqual(parsed_message.repeated_value[1].seconds, 3600 + 23 * 60) |
| |
| def testDurationMessage(self): |
| message = json_format_proto3_pb2.TestDuration() |
| message.value.seconds = 1 |
| message.repeated_value.add().seconds = 0 |
| message.repeated_value[0].nanos = 10 |
| message.repeated_value.add().seconds = -1 |
| message.repeated_value[1].nanos = -1000 |
| message.repeated_value.add().seconds = 10 |
| message.repeated_value[2].nanos = 11000000 |
| message.repeated_value.add().seconds = -315576000000 |
| message.repeated_value.add().seconds = 315576000000 |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, True)), |
| json.loads('{' |
| '"value": "1s",' |
| '"repeatedValue": [' |
| ' "0.000000010s",' |
| ' "-1.000001s",' |
| ' "10.011s",' |
| ' "-315576000000s",' |
| ' "315576000000s"' |
| ']' |
| '}')) |
| parsed_message = json_format_proto3_pb2.TestDuration() |
| self.CheckParseBack(message, parsed_message) |
| |
| def testFieldMaskMessage(self): |
| message = json_format_proto3_pb2.TestFieldMask() |
| message.value.paths.append('foo.bar') |
| message.value.paths.append('bar') |
| self.assertEqual( |
| json_format.MessageToJson(message, True), |
| '{\n' |
| ' "value": "foo.bar,bar"\n' |
| '}') |
| parsed_message = json_format_proto3_pb2.TestFieldMask() |
| self.CheckParseBack(message, parsed_message) |
| |
| def testWrapperMessage(self): |
| message = json_format_proto3_pb2.TestWrapper() |
| message.bool_value.value = False |
| message.int32_value.value = 0 |
| message.string_value.value = '' |
| message.bytes_value.value = b'' |
| message.repeated_bool_value.add().value = True |
| message.repeated_bool_value.add().value = False |
| message.repeated_int32_value.add() |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, True)), |
| json.loads('{\n' |
| ' "int32Value": 0,' |
| ' "boolValue": false,' |
| ' "stringValue": "",' |
| ' "bytesValue": "",' |
| ' "repeatedBoolValue": [true, false],' |
| ' "repeatedInt32Value": [0],' |
| ' "repeatedUint32Value": [],' |
| ' "repeatedFloatValue": [],' |
| ' "repeatedDoubleValue": [],' |
| ' "repeatedBytesValue": [],' |
| ' "repeatedInt64Value": [],' |
| ' "repeatedUint64Value": [],' |
| ' "repeatedStringValue": []' |
| '}')) |
| parsed_message = json_format_proto3_pb2.TestWrapper() |
| self.CheckParseBack(message, parsed_message) |
| |
| def testStructMessage(self): |
| message = json_format_proto3_pb2.TestStruct() |
| message.value['name'] = 'Jim' |
| message.value['age'] = 10 |
| message.value['attend'] = True |
| message.value['email'] = None |
| message.value.get_or_create_struct('address')['city'] = 'SFO' |
| message.value['address']['house_number'] = 1024 |
| struct_list = message.value.get_or_create_list('list') |
| struct_list.extend([6, 'seven', True, False, None]) |
| struct_list.add_struct()['subkey2'] = 9 |
| message.repeated_value.add()['age'] = 11 |
| message.repeated_value.add() |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, False)), |
| json.loads( |
| '{' |
| ' "value": {' |
| ' "address": {' |
| ' "city": "SFO", ' |
| ' "house_number": 1024' |
| ' }, ' |
| ' "age": 10, ' |
| ' "name": "Jim", ' |
| ' "attend": true, ' |
| ' "email": null, ' |
| ' "list": [6, "seven", true, false, null, {"subkey2": 9}]' |
| ' },' |
| ' "repeatedValue": [{"age": 11}, {}]' |
| '}')) |
| parsed_message = json_format_proto3_pb2.TestStruct() |
| self.CheckParseBack(message, parsed_message) |
| |
| def testValueMessage(self): |
| message = json_format_proto3_pb2.TestValue() |
| message.value.string_value = 'hello' |
| message.repeated_value.add().number_value = 11.1 |
| message.repeated_value.add().bool_value = False |
| message.repeated_value.add().null_value = 0 |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, False)), |
| json.loads( |
| '{' |
| ' "value": "hello",' |
| ' "repeatedValue": [11.1, false, null]' |
| '}')) |
| parsed_message = json_format_proto3_pb2.TestValue() |
| self.CheckParseBack(message, parsed_message) |
| # Can't parse back if the Value message is not set. |
| message.repeated_value.add() |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, False)), |
| json.loads( |
| '{' |
| ' "value": "hello",' |
| ' "repeatedValue": [11.1, false, null, null]' |
| '}')) |
| |
| def testListValueMessage(self): |
| message = json_format_proto3_pb2.TestListValue() |
| message.value.values.add().number_value = 11.1 |
| message.value.values.add().null_value = 0 |
| message.value.values.add().bool_value = True |
| message.value.values.add().string_value = 'hello' |
| message.value.values.add().struct_value['name'] = 'Jim' |
| message.repeated_value.add().values.add().number_value = 1 |
| message.repeated_value.add() |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, False)), |
| json.loads( |
| '{"value": [11.1, null, true, "hello", {"name": "Jim"}]\n,' |
| '"repeatedValue": [[1], []]}')) |
| parsed_message = json_format_proto3_pb2.TestListValue() |
| self.CheckParseBack(message, parsed_message) |
| |
| def testAnyMessage(self): |
| message = json_format_proto3_pb2.TestAny() |
| value1 = json_format_proto3_pb2.MessageType() |
| value2 = json_format_proto3_pb2.MessageType() |
| value1.value = 1234 |
| value2.value = 5678 |
| message.value.Pack(value1) |
| message.repeated_value.add().Pack(value1) |
| message.repeated_value.add().Pack(value2) |
| message.repeated_value.add() |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, True)), |
| json.loads( |
| '{\n' |
| ' "repeatedValue": [ {\n' |
| ' "@type": "type.googleapis.com/proto3.MessageType",\n' |
| ' "value": 1234\n' |
| ' }, {\n' |
| ' "@type": "type.googleapis.com/proto3.MessageType",\n' |
| ' "value": 5678\n' |
| ' },\n' |
| ' {}],\n' |
| ' "value": {\n' |
| ' "@type": "type.googleapis.com/proto3.MessageType",\n' |
| ' "value": 1234\n' |
| ' }\n' |
| '}\n')) |
| parsed_message = json_format_proto3_pb2.TestAny() |
| self.CheckParseBack(message, parsed_message) |
| |
| def testWellKnownInAnyMessage(self): |
| message = any_pb2.Any() |
| int32_value = wrappers_pb2.Int32Value() |
| int32_value.value = 1234 |
| message.Pack(int32_value) |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, True)), |
| json.loads( |
| '{\n' |
| ' "@type": \"type.googleapis.com/google.protobuf.Int32Value\",\n' |
| ' "value": 1234\n' |
| '}\n')) |
| parsed_message = any_pb2.Any() |
| self.CheckParseBack(message, parsed_message) |
| |
| timestamp = timestamp_pb2.Timestamp() |
| message.Pack(timestamp) |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, True)), |
| json.loads( |
| '{\n' |
| ' "@type": "type.googleapis.com/google.protobuf.Timestamp",\n' |
| ' "value": "1970-01-01T00:00:00Z"\n' |
| '}\n')) |
| self.CheckParseBack(message, parsed_message) |
| |
| duration = duration_pb2.Duration() |
| duration.seconds = 1 |
| message.Pack(duration) |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, True)), |
| json.loads( |
| '{\n' |
| ' "@type": "type.googleapis.com/google.protobuf.Duration",\n' |
| ' "value": "1s"\n' |
| '}\n')) |
| self.CheckParseBack(message, parsed_message) |
| |
| field_mask = field_mask_pb2.FieldMask() |
| field_mask.paths.append('foo.bar') |
| field_mask.paths.append('bar') |
| message.Pack(field_mask) |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, True)), |
| json.loads( |
| '{\n' |
| ' "@type": "type.googleapis.com/google.protobuf.FieldMask",\n' |
| ' "value": "foo.bar,bar"\n' |
| '}\n')) |
| self.CheckParseBack(message, parsed_message) |
| |
| struct_message = struct_pb2.Struct() |
| struct_message['name'] = 'Jim' |
| message.Pack(struct_message) |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, True)), |
| json.loads( |
| '{\n' |
| ' "@type": "type.googleapis.com/google.protobuf.Struct",\n' |
| ' "value": {"name": "Jim"}\n' |
| '}\n')) |
| self.CheckParseBack(message, parsed_message) |
| |
| nested_any = any_pb2.Any() |
| int32_value.value = 5678 |
| nested_any.Pack(int32_value) |
| message.Pack(nested_any) |
| self.assertEqual( |
| json.loads(json_format.MessageToJson(message, True)), |
| json.loads( |
| '{\n' |
| ' "@type": "type.googleapis.com/google.protobuf.Any",\n' |
| ' "value": {\n' |
| ' "@type": "type.googleapis.com/google.protobuf.Int32Value",\n' |
| ' "value": 5678\n' |
| ' }\n' |
| '}\n')) |
| self.CheckParseBack(message, parsed_message) |
| |
| def testParseNull(self): |
| message = json_format_proto3_pb2.TestMessage() |
| parsed_message = json_format_proto3_pb2.TestMessage() |
| self.FillAllFields(parsed_message) |
| json_format.Parse('{"int32Value": null, ' |
| '"int64Value": null, ' |
| '"uint32Value": null,' |
| '"uint64Value": null,' |
| '"floatValue": null,' |
| '"doubleValue": null,' |
| '"boolValue": null,' |
| '"stringValue": null,' |
| '"bytesValue": null,' |
| '"messageValue": null,' |
| '"enumValue": null,' |
| '"repeatedInt32Value": null,' |
| '"repeatedInt64Value": null,' |
| '"repeatedUint32Value": null,' |
| '"repeatedUint64Value": null,' |
| '"repeatedFloatValue": null,' |
| '"repeatedDoubleValue": null,' |
| '"repeatedBoolValue": null,' |
| '"repeatedStringValue": null,' |
| '"repeatedBytesValue": null,' |
| '"repeatedMessageValue": null,' |
| '"repeatedEnumValue": null' |
| '}', |
| parsed_message) |
| self.assertEqual(message, parsed_message) |
| self.assertRaisesRegexp( |
| json_format.ParseError, |
| 'Failed to parse repeatedInt32Value field: ' |
| 'null is not allowed to be used as an element in a repeated field.', |
| json_format.Parse, |
| '{"repeatedInt32Value":[1, null]}', |
| parsed_message) |
| |
| def testNanFloat(self): |
| message = json_format_proto3_pb2.TestMessage() |
| message.float_value = float('nan') |
| text = '{\n "floatValue": "NaN"\n}' |
| self.assertEqual(json_format.MessageToJson(message), text) |
| parsed_message = json_format_proto3_pb2.TestMessage() |
| json_format.Parse(text, parsed_message) |
| self.assertTrue(math.isnan(parsed_message.float_value)) |
| |
| def testParseEmptyText(self): |
| self.CheckError('', |
| r'Failed to load JSON: (Expecting value)|(No JSON).') |
| |
| def testParseBadEnumValue(self): |
| self.CheckError( |
| '{"enumValue": 1}', |
| 'Enum value must be a string literal with double quotes. ' |
| 'Type "proto3.EnumType" has no value named 1.') |
| self.CheckError( |
| '{"enumValue": "baz"}', |
| 'Enum value must be a string literal with double quotes. ' |
| 'Type "proto3.EnumType" has no value named baz.') |
| |
| def testParseBadIdentifer(self): |
| self.CheckError('{int32Value: 1}', |
| (r'Failed to load JSON: Expecting property name' |
| r'( enclosed in double quotes)?: line 1')) |
| self.CheckError('{"unknownName": 1}', |
| 'Message type "proto3.TestMessage" has no field named ' |
| '"unknownName".') |
| |
| def testDuplicateField(self): |
| # Duplicate key check is not supported for python2.6 |
| if sys.version_info < (2, 7): |
| return |
| self.CheckError('{"int32Value": 1,\n"int32Value":2}', |
| 'Failed to load JSON: duplicate key int32Value.') |
| |
| def testInvalidBoolValue(self): |
| self.CheckError('{"boolValue": 1}', |
| 'Failed to parse boolValue field: ' |
| 'Expected true or false without quotes.') |
| self.CheckError('{"boolValue": "true"}', |
| 'Failed to parse boolValue field: ' |
| 'Expected true or false without quotes.') |
| |
| def testInvalidIntegerValue(self): |
| message = json_format_proto3_pb2.TestMessage() |
| text = '{"int32Value": 0x12345}' |
| self.assertRaises(json_format.ParseError, |
| json_format.Parse, text, message) |
| self.CheckError('{"int32Value": 012345}', |
| (r'Failed to load JSON: Expecting \'?,\'? delimiter: ' |
| r'line 1.')) |
| self.CheckError('{"int32Value": 1.0}', |
| 'Failed to parse int32Value field: ' |
| 'Couldn\'t parse integer: 1.0.') |
| self.CheckError('{"int32Value": " 1 "}', |
| 'Failed to parse int32Value field: ' |
| 'Couldn\'t parse integer: " 1 ".') |
| self.CheckError('{"int32Value": "1 "}', |
| 'Failed to parse int32Value field: ' |
| 'Couldn\'t parse integer: "1 ".') |
| self.CheckError('{"int32Value": 12345678901234567890}', |
| 'Failed to parse int32Value field: Value out of range: ' |
| '12345678901234567890.') |
| self.CheckError('{"int32Value": 1e5}', |
| 'Failed to parse int32Value field: ' |
| 'Couldn\'t parse integer: 100000.0.') |
| self.CheckError('{"uint32Value": -1}', |
| 'Failed to parse uint32Value field: ' |
| 'Value out of range: -1.') |
| |
| def testInvalidFloatValue(self): |
| self.CheckError('{"floatValue": "nan"}', |
| 'Failed to parse floatValue field: Couldn\'t ' |
| 'parse float "nan", use "NaN" instead.') |
| |
| def testInvalidBytesValue(self): |
| self.CheckError('{"bytesValue": "AQI"}', |
| 'Failed to parse bytesValue field: Incorrect padding.') |
| self.CheckError('{"bytesValue": "AQI*"}', |
| 'Failed to parse bytesValue field: Incorrect padding.') |
| |
| def testInvalidMap(self): |
| message = json_format_proto3_pb2.TestMap() |
| text = '{"int32Map": {"null": 2, "2": 3}}' |
| self.assertRaisesRegexp( |
| json_format.ParseError, |
| 'Failed to parse int32Map field: invalid literal', |
| json_format.Parse, text, message) |
| text = '{"int32Map": {1: 2, "2": 3}}' |
| self.assertRaisesRegexp( |
| json_format.ParseError, |
| (r'Failed to load JSON: Expecting property name' |
| r'( enclosed in double quotes)?: line 1'), |
| json_format.Parse, text, message) |
| text = '{"boolMap": {"null": 1}}' |
| self.assertRaisesRegexp( |
| json_format.ParseError, |
| 'Failed to parse boolMap field: Expected "true" or "false", not null.', |
| json_format.Parse, text, message) |
| if sys.version_info < (2, 7): |
| return |
| text = r'{"stringMap": {"a": 3, "\u0061": 2}}' |
| self.assertRaisesRegexp( |
| json_format.ParseError, |
| 'Failed to load JSON: duplicate key a', |
| json_format.Parse, text, message) |
| |
| def testInvalidTimestamp(self): |
| message = json_format_proto3_pb2.TestTimestamp() |
| text = '{"value": "10000-01-01T00:00:00.00Z"}' |
| self.assertRaisesRegexp( |
| json_format.ParseError, |
| 'time data \'10000-01-01T00:00:00\' does not match' |
| ' format \'%Y-%m-%dT%H:%M:%S\'.', |
| json_format.Parse, text, message) |
| text = '{"value": "1970-01-01T00:00:00.0123456789012Z"}' |
| self.assertRaisesRegexp( |
| well_known_types.ParseError, |
| 'nanos 0123456789012 more than 9 fractional digits.', |
| json_format.Parse, text, message) |
| text = '{"value": "1972-01-01T01:00:00.01+08"}' |
| self.assertRaisesRegexp( |
| well_known_types.ParseError, |
| (r'Invalid timezone offset value: \+08.'), |
| json_format.Parse, text, message) |
| # Time smaller than minimum time. |
| text = '{"value": "0000-01-01T00:00:00Z"}' |
| self.assertRaisesRegexp( |
| json_format.ParseError, |
| 'Failed to parse value field: year is out of range.', |
| json_format.Parse, text, message) |
| # Time bigger than maxinum time. |
| message.value.seconds = 253402300800 |
| self.assertRaisesRegexp( |
| OverflowError, |
| 'date value out of range', |
| json_format.MessageToJson, message) |
| |
| def testInvalidOneof(self): |
| message = json_format_proto3_pb2.TestOneof() |
| text = '{"oneofInt32Value": 1, "oneofStringValue": "2"}' |
| self.assertRaisesRegexp( |
| json_format.ParseError, |
| 'Message type "proto3.TestOneof"' |
| ' should not have multiple "oneof_value" oneof fields.', |
| json_format.Parse, text, message) |
| |
| def testInvalidListValue(self): |
| message = json_format_proto3_pb2.TestListValue() |
| text = '{"value": 1234}' |
| self.assertRaisesRegexp( |
| json_format.ParseError, |
| r'Failed to parse value field: ListValue must be in \[\] which is 1234', |
| json_format.Parse, text, message) |
| |
| def testInvalidStruct(self): |
| message = json_format_proto3_pb2.TestStruct() |
| text = '{"value": 1234}' |
| self.assertRaisesRegexp( |
| json_format.ParseError, |
| 'Failed to parse value field: Struct must be in a dict which is 1234', |
| json_format.Parse, text, message) |
| |
| def testInvalidAny(self): |
| message = any_pb2.Any() |
| text = '{"@type": "type.googleapis.com/google.protobuf.Int32Value"}' |
| self.assertRaisesRegexp( |
| KeyError, |
| 'value', |
| json_format.Parse, text, message) |
| text = '{"value": 1234}' |
| self.assertRaisesRegexp( |
| json_format.ParseError, |
| '@type is missing when parsing any message.', |
| json_format.Parse, text, message) |
| text = '{"@type": "type.googleapis.com/MessageNotExist", "value": 1234}' |
| self.assertRaisesRegexp( |
| TypeError, |
| 'Can not find message descriptor by type_url: ' |
| 'type.googleapis.com/MessageNotExist.', |
| json_format.Parse, text, message) |
| # Only last part is to be used: b/25630112 |
| text = (r'{"@type": "incorrect.googleapis.com/google.protobuf.Int32Value",' |
| r'"value": 1234}') |
| json_format.Parse(text, message) |
| |
| |
| if __name__ == '__main__': |
| unittest.main() |