// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
//
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// 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,
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package com.google.protobuf.kotlin
import com.google.common.truth.Truth.assertThat
import com.google.protobuf.TestUtil
import com.google.protobuf.TestUtil.toBytes
import com.google.protobuf.kotlin.generator.EvilNamesProto2OuterClass.EvilNamesProto2
import com.google.protobuf.kotlin.generator.EvilNamesProto2OuterClass.HardKeywordsAllTypesProto2
import com.google.protobuf.kotlin.generator.EvilNamesProto2OuterClass.Interface
import com.google.protobuf.kotlin.generator.HardKeywordsAllTypesProto2Kt
import com.google.protobuf.kotlin.generator.evilNamesProto2
import com.google.protobuf.kotlin.generator.hardKeywordsAllTypesProto2
import com.google.protobuf.kotlin.generator.interface_
import com.google.protobuf.test.UnittestImport.ImportEnum
import com.google.protobuf.test.UnittestImport.ImportMessage
import com.google.protobuf.test.UnittestImportPublic.PublicImportMessage
import protobuf_unittest.MapProto2Unittest.Proto2MapEnum
import protobuf_unittest.MapProto2Unittest.TestEnumMap
import protobuf_unittest.MapProto2Unittest.TestIntIntMap
import protobuf_unittest.MapProto2Unittest.TestMaps
import protobuf_unittest.TestAllTypesKt
import protobuf_unittest.TestAllTypesKt.nestedMessage
import protobuf_unittest.UnittestProto
import protobuf_unittest.UnittestProto.ForeignEnum
import protobuf_unittest.UnittestProto.TestAllTypes
import protobuf_unittest.UnittestProto.TestAllTypes.NestedEnum
import protobuf_unittest.UnittestProto.TestEmptyMessage
import protobuf_unittest.UnittestProto.TestEmptyMessageWithExtensions
import protobuf_unittest.copy
import protobuf_unittest.foreignMessage
import protobuf_unittest.optionalGroupExtension
import protobuf_unittest.optionalNestedMessageOrNull
import protobuf_unittest.repeatedGroupExtension
import protobuf_unittest.testAllExtensions
import protobuf_unittest.testAllTypes
import protobuf_unittest.testEmptyMessage
import protobuf_unittest.testEmptyMessageWithExtensions
import protobuf_unittest.testEnumMap
import protobuf_unittest.testIntIntMap
import protobuf_unittest.testMaps
import org.junit.Test
import org.junit.runner.RunWith
import org.junit.runners.JUnit4
@RunWith(JUnit4::class)
class Proto2Test {
@Test
fun testSetters() {
assertThat(
testAllTypes {
optionalInt32 = 101
optionalInt64 = 102
optionalUint32 = 103
optionalUint64 = 104
optionalSint32 = 105
optionalSint64 = 106
optionalFixed32 = 107
optionalFixed64 = 108
optionalSfixed32 = 109
optionalSfixed64 = 110
optionalFloat = 111.0f
optionalDouble = 112.0
optionalBool = true
optionalString = "115"
optionalBytes = toBytes("116")
optionalGroup = TestAllTypesKt.optionalGroup { a = 117 }
optionalNestedMessage = nestedMessage { bb = 118 }
optionalForeignMessage = foreignMessage { c = 119 }
optionalImportMessage = ImportMessage.newBuilder().setD(120).build()
optionalPublicImportMessage = PublicImportMessage.newBuilder().setE(126).build()
optionalLazyMessage = nestedMessage { bb = 127 }
optionalUnverifiedLazyMessage = nestedMessage { bb = 128 }
optionalNestedEnum = NestedEnum.BAZ
optionalForeignEnum = ForeignEnum.FOREIGN_BAZ
optionalImportEnum = ImportEnum.IMPORT_BAZ
optionalStringPiece = "124"
optionalCord = "125"
repeatedInt32.add(201)
repeatedInt64.add(202)
repeatedUint32.add(203)
repeatedUint64.add(204)
repeatedSint32.add(205)
repeatedSint64.add(206)
repeatedFixed32.add(207)
repeatedFixed64.add(208)
repeatedSfixed32.add(209)
repeatedSfixed64.add(210)
repeatedFloat.add(211f)
repeatedDouble.add(212.0)
repeatedBool.add(true)
repeatedString.add("215")
repeatedBytes.add(toBytes("216"))
repeatedGroup.add(TestAllTypesKt.repeatedGroup { a = 217 })
repeatedNestedMessage.add(nestedMessage { bb = 218 })
repeatedForeignMessage.add(foreignMessage { c = 219 })
repeatedImportMessage.add(ImportMessage.newBuilder().setD(220).build())
repeatedLazyMessage.add(nestedMessage { bb = 227 })
repeatedNestedEnum.add(NestedEnum.BAR)
repeatedForeignEnum.add(ForeignEnum.FOREIGN_BAR)
repeatedImportEnum.add(ImportEnum.IMPORT_BAR)
repeatedStringPiece.add("224")
repeatedCord.add("225")
repeatedInt32 += 301
repeatedInt64 += 302
repeatedUint32 += 303
repeatedUint64 += 304
repeatedSint32 += 305
repeatedSint64 += 306
repeatedFixed32 += 307
repeatedFixed64 += 308
repeatedSfixed32 += 309
repeatedSfixed64 += 310
repeatedFloat += 311f
repeatedDouble += 312.0
repeatedBool += false
repeatedString += "315"
repeatedBytes += toBytes("316")
repeatedGroup += TestAllTypesKt.repeatedGroup { a = 317 }
repeatedNestedMessage += nestedMessage { bb = 318 }
repeatedForeignMessage += foreignMessage { c = 319 }
repeatedImportMessage += ImportMessage.newBuilder().setD(320).build()
repeatedLazyMessage += TestAllTypesKt.nestedMessage { bb = 327 }
repeatedNestedEnum += NestedEnum.BAZ
repeatedForeignEnum += ForeignEnum.FOREIGN_BAZ
repeatedImportEnum += ImportEnum.IMPORT_BAZ
repeatedStringPiece += "324"
repeatedCord += "325"
defaultInt32 = 401
defaultInt64 = 402
defaultUint32 = 403
defaultUint64 = 404
defaultSint32 = 405
defaultSint64 = 406
defaultFixed32 = 407
defaultFixed64 = 408
defaultSfixed32 = 409
defaultSfixed64 = 410
defaultFloat = 411f
defaultDouble = 412.0
defaultBool = false
defaultString = "415"
defaultBytes = toBytes("416")
defaultNestedEnum = NestedEnum.FOO
defaultForeignEnum = ForeignEnum.FOREIGN_FOO
defaultImportEnum = ImportEnum.IMPORT_FOO
defaultStringPiece = "424"
defaultCord = "425"
oneofUint32 = 601
oneofNestedMessage = TestAllTypesKt.nestedMessage { bb = 602 }
oneofString = "603"
oneofBytes = toBytes("604")
}
)
.isEqualTo(TestUtil.getAllSetBuilder().build())
}
@Test
fun testGetters() {
testAllTypes {
optionalInt32 = 101
assertThat(optionalInt32).isEqualTo(101)
optionalString = "115"
assertThat(optionalString).isEqualTo("115")
optionalGroup = TestAllTypesKt.optionalGroup { a = 117 }
assertThat(optionalGroup).isEqualTo(TestAllTypesKt.optionalGroup { a = 117 })
optionalNestedMessage = TestAllTypesKt.nestedMessage { bb = 118 }
assertThat(optionalNestedMessage).isEqualTo(TestAllTypesKt.nestedMessage { bb = 118 })
optionalNestedEnum = NestedEnum.BAZ
assertThat(optionalNestedEnum).isEqualTo(NestedEnum.BAZ)
defaultInt32 = 401
assertThat(defaultInt32).isEqualTo(401)
oneofUint32 = 601
assertThat(oneofUint32).isEqualTo(601)
}
}
@Test
fun testDefaultGetters() {
testAllTypes {
assertThat(defaultInt32).isEqualTo(41)
assertThat(defaultString).isEqualTo("hello")
assertThat(defaultNestedEnum).isEqualTo(NestedEnum.BAR)
assertThat(defaultStringPiece).isEqualTo("abc")
}
}
@Test
fun testRepeatedGettersAndSetters() {
testAllTypes {
repeatedInt32.addAll(listOf(1, 2))
assertThat(repeatedInt32).isEqualTo(listOf(1, 2))
repeatedInt32 += listOf(3, 4)
assertThat(repeatedInt32).isEqualTo(listOf(1, 2, 3, 4))
repeatedInt32[0] = 5
assertThat(repeatedInt32).isEqualTo(listOf(5, 2, 3, 4))
repeatedString.addAll(listOf("1", "2"))
assertThat(repeatedString).isEqualTo(listOf("1", "2"))
repeatedString += listOf("3", "4")
assertThat(repeatedString).isEqualTo(listOf("1", "2", "3", "4"))
repeatedString[0] = "5"
assertThat(repeatedString).isEqualTo(listOf("5", "2", "3", "4"))
repeatedGroup.addAll(
listOf(TestAllTypesKt.repeatedGroup { a = 1 }, TestAllTypesKt.repeatedGroup { a = 2 })
)
assertThat(repeatedGroup)
.isEqualTo(
listOf(TestAllTypesKt.repeatedGroup { a = 1 }, TestAllTypesKt.repeatedGroup { a = 2 })
)
repeatedGroup +=
listOf(TestAllTypesKt.repeatedGroup { a = 3 }, TestAllTypesKt.repeatedGroup { a = 4 })
assertThat(repeatedGroup)
.isEqualTo(
listOf(
TestAllTypesKt.repeatedGroup { a = 1 },
TestAllTypesKt.repeatedGroup { a = 2 },
TestAllTypesKt.repeatedGroup { a = 3 },
TestAllTypesKt.repeatedGroup { a = 4 }
)
)
repeatedGroup[0] = TestAllTypesKt.repeatedGroup { a = 5 }
assertThat(repeatedGroup)
.isEqualTo(
listOf(
TestAllTypesKt.repeatedGroup { a = 5 },
TestAllTypesKt.repeatedGroup { a = 2 },
TestAllTypesKt.repeatedGroup { a = 3 },
TestAllTypesKt.repeatedGroup { a = 4 }
)
)
repeatedNestedMessage.addAll(listOf(nestedMessage { bb = 1 }, nestedMessage { bb = 2 }))
assertThat(repeatedNestedMessage)
.isEqualTo(listOf(nestedMessage { bb = 1 }, nestedMessage { bb = 2 }))
repeatedNestedMessage += listOf(nestedMessage { bb = 3 }, nestedMessage { bb = 4 })
assertThat(repeatedNestedMessage)
.isEqualTo(
listOf(
nestedMessage { bb = 1 },
nestedMessage { bb = 2 },
nestedMessage { bb = 3 },
nestedMessage { bb = 4 }
)
)
repeatedNestedMessage[0] = nestedMessage { bb = 5 }
assertThat(repeatedNestedMessage)
.isEqualTo(
listOf(
nestedMessage { bb = 5 },
nestedMessage { bb = 2 },
nestedMessage { bb = 3 },
nestedMessage { bb = 4 }
)
)
repeatedNestedEnum.addAll(listOf(NestedEnum.FOO, NestedEnum.BAR))
assertThat(repeatedNestedEnum).isEqualTo(listOf(NestedEnum.FOO, NestedEnum.BAR))
repeatedNestedEnum += listOf(NestedEnum.BAZ, NestedEnum.FOO)
assertThat(repeatedNestedEnum)
.isEqualTo(listOf(NestedEnum.FOO, NestedEnum.BAR, NestedEnum.BAZ, NestedEnum.FOO))
repeatedNestedEnum[0] = NestedEnum.BAR
assertThat(repeatedNestedEnum)
.isEqualTo(listOf(NestedEnum.BAR, NestedEnum.BAR, NestedEnum.BAZ, NestedEnum.FOO))
}
}
@Test
fun testHazzers() {
testAllTypes {
optionalInt32 = 101
assertThat(hasOptionalInt32()).isTrue()
assertThat(hasOptionalString()).isFalse()
optionalGroup = TestAllTypesKt.optionalGroup { a = 117 }
assertThat(hasOptionalGroup()).isTrue()
assertThat(hasOptionalNestedMessage()).isFalse()
optionalNestedEnum = NestedEnum.BAZ
assertThat(hasOptionalNestedEnum()).isTrue()
assertThat(hasDefaultInt32()).isFalse()
oneofUint32 = 601
assertThat(hasOneofUint32()).isTrue()
}
testAllTypes {
assertThat(hasOptionalInt32()).isFalse()
optionalString = "115"
assertThat(hasOptionalString()).isTrue()
assertThat(hasOptionalGroup()).isFalse()
optionalNestedMessage = TestAllTypesKt.nestedMessage { bb = 118 }
assertThat(hasOptionalNestedMessage()).isTrue()
assertThat(hasOptionalNestedEnum()).isFalse()
defaultInt32 = 401
assertThat(hasDefaultInt32()).isTrue()
assertThat(hasOneofUint32()).isFalse()
}
}
@Test
fun testClears() {
testAllTypes {
optionalInt32 = 101
clearOptionalInt32()
assertThat(hasOptionalInt32()).isFalse()
optionalString = "115"
clearOptionalString()
assertThat(hasOptionalString()).isFalse()
optionalGroup = TestAllTypesKt.optionalGroup { a = 117 }
clearOptionalGroup()
assertThat(hasOptionalGroup()).isFalse()
optionalNestedMessage = TestAllTypesKt.nestedMessage { bb = 118 }
clearOptionalNestedMessage()
assertThat(hasOptionalNestedMessage()).isFalse()
optionalNestedEnum = NestedEnum.BAZ
clearOptionalNestedEnum()
assertThat(hasOptionalNestedEnum()).isFalse()
defaultInt32 = 401
clearDefaultInt32()
assertThat(hasDefaultInt32()).isFalse()
oneofUint32 = 601
clearOneofUint32()
assertThat(hasOneofUint32()).isFalse()
}
}
@Test
fun testCopy() {
val message = testAllTypes {
optionalInt32 = 101
optionalString = "115"
}
val modifiedMessage = message.copy { optionalInt32 = 201 }
assertThat(message)
.isEqualTo(TestAllTypes.newBuilder().setOptionalInt32(101).setOptionalString("115").build())
assertThat(modifiedMessage)
.isEqualTo(TestAllTypes.newBuilder().setOptionalInt32(201).setOptionalString("115").build())
}
@Test
fun testOneof() {
val message = testAllTypes {
oneofString = "foo"
assertThat(oneofFieldCase).isEqualTo(TestAllTypes.OneofFieldCase.ONEOF_STRING)
assertThat(oneofString).isEqualTo("foo")
clearOneofField()
assertThat(hasOneofUint32()).isFalse()
assertThat(oneofFieldCase).isEqualTo(TestAllTypes.OneofFieldCase.ONEOFFIELD_NOT_SET)
oneofUint32 = 5
}
assertThat(message.getOneofFieldCase()).isEqualTo(TestAllTypes.OneofFieldCase.ONEOF_UINT32)
assertThat(message.getOneofUint32()).isEqualTo(5)
}
@Test
fun testExtensionsSet() {
assertThat(
testAllExtensions {
this[UnittestProto.optionalInt32Extension] = 101
this[UnittestProto.optionalInt64Extension] = 102L
this[UnittestProto.optionalUint32Extension] = 103
this[UnittestProto.optionalUint64Extension] = 104L
this[UnittestProto.optionalSint32Extension] = 105
this[UnittestProto.optionalSint64Extension] = 106L
this[UnittestProto.optionalFixed32Extension] = 107
this[UnittestProto.optionalFixed64Extension] = 108L
this[UnittestProto.optionalSfixed32Extension] = 109
this[UnittestProto.optionalSfixed64Extension] = 110L
this[UnittestProto.optionalFloatExtension] = 111F
this[UnittestProto.optionalDoubleExtension] = 112.0
this[UnittestProto.optionalBoolExtension] = true
this[UnittestProto.optionalStringExtension] = "115"
this[UnittestProto.optionalBytesExtension] = toBytes("116")
this[UnittestProto.optionalGroupExtension] = optionalGroupExtension { a = 117 }
this[UnittestProto.optionalNestedMessageExtension] =
TestAllTypesKt.nestedMessage { bb = 118 }
this[UnittestProto.optionalForeignMessageExtension] = foreignMessage { c = 119 }
this[UnittestProto.optionalImportMessageExtension] =
ImportMessage.newBuilder().setD(120).build()
this[UnittestProto.optionalPublicImportMessageExtension] =
PublicImportMessage.newBuilder().setE(126).build()
this[UnittestProto.optionalLazyMessageExtension] =
TestAllTypesKt.nestedMessage { bb = 127 }
this[UnittestProto.optionalUnverifiedLazyMessageExtension] =
TestAllTypesKt.nestedMessage { bb = 128 }
this[UnittestProto.optionalNestedEnumExtension] = NestedEnum.BAZ
this[UnittestProto.optionalForeignEnumExtension] = ForeignEnum.FOREIGN_BAZ
this[UnittestProto.optionalImportEnumExtension] = ImportEnum.IMPORT_BAZ
this[UnittestProto.optionalStringPieceExtension] = "124"
this[UnittestProto.optionalCordExtension] = "125"
this[UnittestProto.repeatedInt32Extension].add(201)
this[UnittestProto.repeatedInt64Extension].add(202L)
this[UnittestProto.repeatedUint32Extension].add(203)
this[UnittestProto.repeatedUint64Extension].add(204L)
this[UnittestProto.repeatedSint32Extension].add(205)
this[UnittestProto.repeatedSint64Extension].add(206L)
this[UnittestProto.repeatedFixed32Extension].add(207)
this[UnittestProto.repeatedFixed64Extension].add(208L)
this[UnittestProto.repeatedSfixed32Extension].add(209)
this[UnittestProto.repeatedSfixed64Extension].add(210L)
this[UnittestProto.repeatedFloatExtension].add(211F)
this[UnittestProto.repeatedDoubleExtension].add(212.0)
this[UnittestProto.repeatedBoolExtension].add(true)
this[UnittestProto.repeatedStringExtension].add("215")
this[UnittestProto.repeatedBytesExtension].add(toBytes("216"))
this[UnittestProto.repeatedGroupExtension].add(repeatedGroupExtension { a = 217 })
this[UnittestProto.repeatedNestedMessageExtension].add(
TestAllTypesKt.nestedMessage { bb = 218 }
)
this[UnittestProto.repeatedForeignMessageExtension].add(foreignMessage { c = 219 })
this[UnittestProto.repeatedImportMessageExtension].add(
ImportMessage.newBuilder().setD(220).build()
)
this[UnittestProto.repeatedLazyMessageExtension].add(
TestAllTypesKt.nestedMessage { bb = 227 }
)
this[UnittestProto.repeatedNestedEnumExtension].add(NestedEnum.BAR)
this[UnittestProto.repeatedForeignEnumExtension].add(ForeignEnum.FOREIGN_BAR)
this[UnittestProto.repeatedImportEnumExtension].add(ImportEnum.IMPORT_BAR)
this[UnittestProto.repeatedStringPieceExtension].add("224")
this[UnittestProto.repeatedCordExtension].add("225")
this[UnittestProto.repeatedInt32Extension] += 301
this[UnittestProto.repeatedInt64Extension] += 302L
this[UnittestProto.repeatedUint32Extension] += 303
this[UnittestProto.repeatedUint64Extension] += 304L
this[UnittestProto.repeatedSint32Extension] += 305
this[UnittestProto.repeatedSint64Extension] += 306L
this[UnittestProto.repeatedFixed32Extension] += 307
this[UnittestProto.repeatedFixed64Extension] += 308L
this[UnittestProto.repeatedSfixed32Extension] += 309
this[UnittestProto.repeatedSfixed64Extension] += 310L
this[UnittestProto.repeatedFloatExtension] += 311F
this[UnittestProto.repeatedDoubleExtension] += 312.0
this[UnittestProto.repeatedBoolExtension] += false
this[UnittestProto.repeatedStringExtension] += "315"
this[UnittestProto.repeatedBytesExtension] += toBytes("316")
this[UnittestProto.repeatedGroupExtension] += repeatedGroupExtension { a = 317 }
this[UnittestProto.repeatedNestedMessageExtension] +=
TestAllTypesKt.nestedMessage { bb = 318 }
this[UnittestProto.repeatedForeignMessageExtension] += foreignMessage { c = 319 }
this[UnittestProto.repeatedImportMessageExtension] +=
ImportMessage.newBuilder().setD(320).build()
this[UnittestProto.repeatedLazyMessageExtension] +=
TestAllTypesKt.nestedMessage { bb = 327 }
this[UnittestProto.repeatedNestedEnumExtension] += NestedEnum.BAZ
this[UnittestProto.repeatedForeignEnumExtension] += ForeignEnum.FOREIGN_BAZ
this[UnittestProto.repeatedImportEnumExtension] += ImportEnum.IMPORT_BAZ
this[UnittestProto.repeatedStringPieceExtension] += "324"
this[UnittestProto.repeatedCordExtension] += "325"
this[UnittestProto.defaultInt32Extension] = 401
this[UnittestProto.defaultInt64Extension] = 402L
this[UnittestProto.defaultUint32Extension] = 403
this[UnittestProto.defaultUint64Extension] = 404L
this[UnittestProto.defaultSint32Extension] = 405
this[UnittestProto.defaultSint64Extension] = 406L
this[UnittestProto.defaultFixed32Extension] = 407
this[UnittestProto.defaultFixed64Extension] = 408L
this[UnittestProto.defaultSfixed32Extension] = 409
this[UnittestProto.defaultSfixed64Extension] = 410L
this[UnittestProto.defaultFloatExtension] = 411F
this[UnittestProto.defaultDoubleExtension] = 412.0
this[UnittestProto.defaultBoolExtension] = false
this[UnittestProto.defaultStringExtension] = "415"
this[UnittestProto.defaultBytesExtension] = toBytes("416")
this[UnittestProto.defaultNestedEnumExtension] = NestedEnum.FOO
this[UnittestProto.defaultForeignEnumExtension] = ForeignEnum.FOREIGN_FOO
this[UnittestProto.defaultImportEnumExtension] = ImportEnum.IMPORT_FOO
this[UnittestProto.defaultStringPieceExtension] = "424"
this[UnittestProto.defaultCordExtension] = "425"
this[UnittestProto.oneofUint32Extension] = 601
this[UnittestProto.oneofNestedMessageExtension] =
TestAllTypesKt.nestedMessage { bb = 602 }
this[UnittestProto.oneofStringExtension] = "603"
this[UnittestProto.oneofBytesExtension] = toBytes("604")
}
)
.isEqualTo(TestUtil.getAllExtensionsSet())
}
@Test
fun testExtensionGetters() {
testAllExtensions {
this[UnittestProto.optionalInt32Extension] = 101
assertThat(this[UnittestProto.optionalInt32Extension]).isEqualTo(101)
this[UnittestProto.optionalStringExtension] = "115"
assertThat(this[UnittestProto.optionalStringExtension]).isEqualTo("115")
this[UnittestProto.optionalGroupExtension] = optionalGroupExtension { a = 117 }
assertThat(this[UnittestProto.optionalGroupExtension])
.isEqualTo(optionalGroupExtension { a = 117 })
this[UnittestProto.optionalNestedMessageExtension] = TestAllTypesKt.nestedMessage { bb = 118 }
assertThat(this[UnittestProto.optionalNestedMessageExtension])
.isEqualTo(TestAllTypesKt.nestedMessage { bb = 118 })
this[UnittestProto.optionalNestedEnumExtension] = NestedEnum.BAZ
assertThat(this[UnittestProto.optionalNestedEnumExtension]).isEqualTo(NestedEnum.BAZ)
this[UnittestProto.defaultInt32Extension] = 401
assertThat(this[UnittestProto.defaultInt32Extension]).isEqualTo(401)
this[UnittestProto.oneofUint32Extension] = 601
assertThat(this[UnittestProto.oneofUint32Extension]).isEqualTo(601)
}
}
@Test
fun testRepeatedExtensionGettersAndSetters() {
testAllExtensions {
this[UnittestProto.repeatedInt32Extension].addAll(listOf(1, 2))
assertThat(this[UnittestProto.repeatedInt32Extension]).isEqualTo(listOf(1, 2))
this[UnittestProto.repeatedInt32Extension] += listOf(3, 4)
assertThat(this[UnittestProto.repeatedInt32Extension]).isEqualTo(listOf(1, 2, 3, 4))
this[UnittestProto.repeatedInt32Extension][0] = 5
assertThat(this[UnittestProto.repeatedInt32Extension]).isEqualTo(listOf(5, 2, 3, 4))
this[UnittestProto.repeatedStringExtension].addAll(listOf("1", "2"))
assertThat(this[UnittestProto.repeatedStringExtension]).isEqualTo(listOf("1", "2"))
this[UnittestProto.repeatedStringExtension] += listOf("3", "4")
assertThat(this[UnittestProto.repeatedStringExtension]).isEqualTo(listOf("1", "2", "3", "4"))
this[UnittestProto.repeatedStringExtension][0] = "5"
assertThat(this[UnittestProto.repeatedStringExtension]).isEqualTo(listOf("5", "2", "3", "4"))
this[UnittestProto.repeatedGroupExtension].addAll(
listOf(repeatedGroupExtension { a = 1 }, repeatedGroupExtension { a = 2 })
)
assertThat(this[UnittestProto.repeatedGroupExtension])
.isEqualTo(listOf(repeatedGroupExtension { a = 1 }, repeatedGroupExtension { a = 2 }))
this[UnittestProto.repeatedGroupExtension] +=
listOf(repeatedGroupExtension { a = 3 }, repeatedGroupExtension { a = 4 })
assertThat(this[UnittestProto.repeatedGroupExtension])
.isEqualTo(
listOf(
repeatedGroupExtension { a = 1 },
repeatedGroupExtension { a = 2 },
repeatedGroupExtension { a = 3 },
repeatedGroupExtension { a = 4 }
)
)
this[UnittestProto.repeatedGroupExtension][0] = repeatedGroupExtension { a = 5 }
assertThat(this[UnittestProto.repeatedGroupExtension])
.isEqualTo(
listOf(
repeatedGroupExtension { a = 5 },
repeatedGroupExtension { a = 2 },
repeatedGroupExtension { a = 3 },
repeatedGroupExtension { a = 4 }
)
)
this[UnittestProto.repeatedNestedMessageExtension].addAll(
listOf(nestedMessage { bb = 1 }, nestedMessage { bb = 2 })
)
assertThat(this[UnittestProto.repeatedNestedMessageExtension])
.isEqualTo(listOf(nestedMessage { bb = 1 }, nestedMessage { bb = 2 }))
this[UnittestProto.repeatedNestedMessageExtension] +=
listOf(nestedMessage { bb = 3 }, nestedMessage { bb = 4 })
assertThat(this[UnittestProto.repeatedNestedMessageExtension])
.isEqualTo(
listOf(
nestedMessage { bb = 1 },
nestedMessage { bb = 2 },
nestedMessage { bb = 3 },
nestedMessage { bb = 4 }
)
)
this[UnittestProto.repeatedNestedMessageExtension][0] = nestedMessage { bb = 5 }
assertThat(this[UnittestProto.repeatedNestedMessageExtension])
.isEqualTo(
listOf(
nestedMessage { bb = 5 },
nestedMessage { bb = 2 },
nestedMessage { bb = 3 },
nestedMessage { bb = 4 }
)
)
this[UnittestProto.repeatedNestedEnumExtension].addAll(listOf(NestedEnum.FOO, NestedEnum.BAR))
assertThat(this[UnittestProto.repeatedNestedEnumExtension])
.isEqualTo(listOf(NestedEnum.FOO, NestedEnum.BAR))
this[UnittestProto.repeatedNestedEnumExtension] += listOf(NestedEnum.BAZ, NestedEnum.FOO)
assertThat(this[UnittestProto.repeatedNestedEnumExtension])
.isEqualTo(listOf(NestedEnum.FOO, NestedEnum.BAR, NestedEnum.BAZ, NestedEnum.FOO))
}
}
@Test
fun testExtensionContains() {
testAllExtensions {
this[UnittestProto.optionalInt32Extension] = 101
assertThat(contains(UnittestProto.optionalInt32Extension)).isTrue()
assertThat(contains(UnittestProto.optionalStringExtension)).isFalse()
this[UnittestProto.optionalGroupExtension] = optionalGroupExtension { a = 117 }
assertThat(contains(UnittestProto.optionalGroupExtension)).isTrue()
assertThat(contains(UnittestProto.optionalNestedMessageExtension)).isFalse()
this[UnittestProto.optionalNestedEnumExtension] = NestedEnum.BAZ
assertThat(contains(UnittestProto.optionalNestedEnumExtension)).isTrue()
assertThat(contains(UnittestProto.defaultInt32Extension)).isFalse()
this[UnittestProto.oneofUint32Extension] = 601
assertThat(contains(UnittestProto.optionalInt32Extension)).isTrue()
}
testAllExtensions {
assertThat(contains(UnittestProto.optionalInt32Extension)).isFalse()
this[UnittestProto.optionalStringExtension] = "115"
assertThat(contains(UnittestProto.optionalStringExtension)).isTrue()
assertThat(contains(UnittestProto.optionalGroupExtension)).isFalse()
this[UnittestProto.optionalNestedMessageExtension] = TestAllTypesKt.nestedMessage { bb = 118 }
assertThat(contains(UnittestProto.optionalNestedMessageExtension)).isTrue()
assertThat(contains(UnittestProto.optionalNestedEnumExtension)).isFalse()
this[UnittestProto.defaultInt32Extension] = 401
assertThat(contains(UnittestProto.defaultInt32Extension)).isTrue()
assertThat(contains(UnittestProto.oneofUint32Extension)).isFalse()
}
}
@Test
fun testExtensionClears() {
testAllExtensions {
this[UnittestProto.optionalInt32Extension] = 101
clear(UnittestProto.optionalInt32Extension)
assertThat(contains(UnittestProto.optionalInt32Extension)).isFalse()
this[UnittestProto.optionalStringExtension] = "115"
clear(UnittestProto.optionalStringExtension)
assertThat(contains(UnittestProto.optionalStringExtension)).isFalse()
this[UnittestProto.optionalGroupExtension] = optionalGroupExtension { a = 117 }
clear(UnittestProto.optionalGroupExtension)
assertThat(contains(UnittestProto.optionalGroupExtension)).isFalse()
this[UnittestProto.optionalNestedMessageExtension] = TestAllTypesKt.nestedMessage { bb = 118 }
clear(UnittestProto.optionalNestedMessageExtension)
assertThat(contains(UnittestProto.optionalNestedMessageExtension)).isFalse()
this[UnittestProto.optionalNestedEnumExtension] = NestedEnum.BAZ
clear(UnittestProto.optionalNestedEnumExtension)
assertThat(contains(UnittestProto.optionalNestedEnumExtension)).isFalse()
this[UnittestProto.defaultInt32Extension] = 401
clear(UnittestProto.defaultInt32Extension)
assertThat(contains(UnittestProto.oneofUint32Extension)).isFalse()
}
}
@Test
fun testEmptyMessages() {
assertThat(testEmptyMessage {}).isEqualTo(TestEmptyMessage.newBuilder().build())
assertThat(testEmptyMessageWithExtensions {})
.isEqualTo(TestEmptyMessageWithExtensions.newBuilder().build())
}
@Test
fun testMapSetters() {
val intMap = testIntIntMap { m[1] = 2 }
assertThat(intMap).isEqualTo(TestIntIntMap.newBuilder().putM(1, 2).build())
assertThat(
testMaps {
mInt32[1] = intMap
mInt64[1L] = intMap
mUint32[1] = intMap
mUint64[1L] = intMap
mSint32[1] = intMap
mSint64[1L] = intMap
mFixed32[1] = intMap
mFixed64[1L] = intMap
mSfixed32[1] = intMap
mSfixed64[1] = intMap
mBool[true] = intMap
mString["1"] = intMap
}
)
.isEqualTo(
TestMaps.newBuilder()
.putMInt32(1, intMap)
.putMInt64(1L, intMap)
.putMUint32(1, intMap)
.putMUint64(1L, intMap)
.putMSint32(1, intMap)
.putMSint64(1L, intMap)
.putMFixed32(1, intMap)
.putMFixed64(1L, intMap)
.putMSfixed32(1, intMap)
.putMSfixed64(1L, intMap)
.putMBool(true, intMap)
.putMString("1", intMap)
.build()
)
assertThat(testEnumMap { knownMapField[1] = Proto2MapEnum.PROTO2_MAP_ENUM_FOO })
.isEqualTo(
TestEnumMap.newBuilder().putKnownMapField(1, Proto2MapEnum.PROTO2_MAP_ENUM_FOO).build()
)
}
@Test
fun testMapGettersAndSetters() {
val intMap = testIntIntMap {
m.put(1, 2)
assertThat(m).isEqualTo(mapOf(1 to 2))
m[3] = 4
assertThat(m).isEqualTo(mapOf(1 to 2, 3 to 4))
m.putAll(mapOf(5 to 6, 7 to 8))
assertThat(m).isEqualTo(mapOf(1 to 2, 3 to 4, 5 to 6, 7 to 8))
}
testMaps {
mInt32.put(1, intMap)
assertThat(mInt32).isEqualTo(mapOf(1 to intMap))
mInt32[2] = intMap
assertThat(mInt32).isEqualTo(mapOf(1 to intMap, 2 to intMap))
mInt32.putAll(mapOf(3 to intMap, 4 to intMap))
assertThat(mInt32).isEqualTo(mapOf(1 to intMap, 2 to intMap, 3 to intMap, 4 to intMap))
mString.put("1", intMap)
assertThat(mString).isEqualTo(mapOf("1" to intMap))
mString["2"] = intMap
assertThat(mString).isEqualTo(mapOf("1" to intMap, "2" to intMap))
mString.putAll(mapOf("3" to intMap, "4" to intMap))
assertThat(mString)
.isEqualTo(mapOf("1" to intMap, "2" to intMap, "3" to intMap, "4" to intMap))
}
testEnumMap {
knownMapField.put(1, Proto2MapEnum.PROTO2_MAP_ENUM_FOO)
assertThat(knownMapField).isEqualTo(mapOf(1 to Proto2MapEnum.PROTO2_MAP_ENUM_FOO))
knownMapField[2] = Proto2MapEnum.PROTO2_MAP_ENUM_BAR
assertThat(knownMapField)
.isEqualTo(
mapOf(1 to Proto2MapEnum.PROTO2_MAP_ENUM_FOO, 2 to Proto2MapEnum.PROTO2_MAP_ENUM_BAR)
)
knownMapField.putAll(
mapOf(3 to Proto2MapEnum.PROTO2_MAP_ENUM_BAZ, 4 to Proto2MapEnum.PROTO2_MAP_ENUM_FOO)
)
assertThat(knownMapField)
.isEqualTo(
mapOf(
1 to Proto2MapEnum.PROTO2_MAP_ENUM_FOO,
2 to Proto2MapEnum.PROTO2_MAP_ENUM_BAR,
3 to Proto2MapEnum.PROTO2_MAP_ENUM_BAZ,
4 to Proto2MapEnum.PROTO2_MAP_ENUM_FOO
)
)
}
}
@Test
fun testMapRemove() {
val intMap = testIntIntMap {
m.putAll(mapOf(1 to 2, 3 to 4))
m.remove(1)
assertThat(m).isEqualTo(mapOf(3 to 4))
}
testMaps {
mInt32.putAll(mapOf(1 to intMap, 2 to intMap))
mInt32.remove(1)
assertThat(mInt32).isEqualTo(mapOf(2 to intMap))
mString.putAll(mapOf("1" to intMap, "2" to intMap))
mString.remove("1")
assertThat(mString).isEqualTo(mapOf("2" to intMap))
}
testEnumMap {
knownMapField.putAll(
mapOf(1 to Proto2MapEnum.PROTO2_MAP_ENUM_FOO, 2 to Proto2MapEnum.PROTO2_MAP_ENUM_BAR)
)
knownMapField.remove(1)
assertThat(knownMapField).isEqualTo(mapOf(2 to Proto2MapEnum.PROTO2_MAP_ENUM_BAR))
}
}
@Test
fun testMapClear() {
val intMap = testIntIntMap {
m.putAll(mapOf(1 to 2, 3 to 4))
m.clear()
assertThat(m.isEmpty()).isTrue()
}
testMaps {
mInt32.putAll(mapOf(1 to intMap, 2 to intMap))
mInt32.clear()
assertThat(mInt32.isEmpty()).isTrue()
mString.putAll(mapOf("1" to intMap, "2" to intMap))
mString.clear()
assertThat(mString.isEmpty()).isTrue()
}
testEnumMap {
knownMapField.putAll(
mapOf(1 to Proto2MapEnum.PROTO2_MAP_ENUM_FOO, 2 to Proto2MapEnum.PROTO2_MAP_ENUM_BAR)
)
knownMapField.clear()
assertThat(knownMapField.isEmpty()).isTrue()
}
}
@Test
fun testEvilNames() {
assertThat(
evilNamesProto2 {
initialized = true
hasFoo = true
bar = "foo"
isInitialized = true
fooBar = "foo"
aLLCAPS += "foo"
aLLCAPSMAP[1] = true
hasUnderbarPrecedingNumeric1Foo = true
hasUnderbarPrecedingNumeric42Bar = true
hasUnderbarPrecedingNumeric123Foo42BarBaz = true
extension += "foo"
class_ += 1
int = 1.0
long = true
boolean = 1L
sealed = "foo"
interface_ = 1F
in_ = 1
object_ = "foo"
cachedSize_ = "foo"
serializedSize_ = true
by = "foo"
}
)
.isEqualTo(
EvilNamesProto2.newBuilder()
.setInitialized(true)
.setHasFoo(true)
.setBar("foo")
.setIsInitialized(true)
.setFooBar("foo")
.addALLCAPS("foo")
.putALLCAPSMAP(1, true)
.setHasUnderbarPrecedingNumeric1Foo(true)
.setHasUnderbarPrecedingNumeric42Bar(true)
.setHasUnderbarPrecedingNumeric123Foo42BarBaz(true)
.addExtension("foo")
.addClass_(1)
.setInt(1.0)
.setLong(true)
.setBoolean(1L)
.setSealed("foo")
.setInterface(1F)
.setIn(1)
.setObject("foo")
.setCachedSize_("foo")
.setSerializedSize_(true)
.setBy("foo")
.build()
)
assertThat(interface_ {}).isEqualTo(Interface.newBuilder().build())
}
@Test
fun testHardKeywordGettersAndSetters() {
hardKeywordsAllTypesProto2 {
as_ = 1
assertThat(as_).isEqualTo(1)
in_ = "foo"
assertThat(in_).isEqualTo("foo")
break_ = HardKeywordsAllTypesProto2.NestedEnum.FOO
assertThat(break_).isEqualTo(HardKeywordsAllTypesProto2.NestedEnum.FOO)
do_ = HardKeywordsAllTypesProto2Kt.nestedMessage { while_ = 1 }
assertThat(do_).isEqualTo(HardKeywordsAllTypesProto2Kt.nestedMessage { while_ = 1 })
continue_[1] = 1
assertThat(continue_[1]).isEqualTo(1)
else_ += 1
assertThat(else_).isEqualTo(listOf(1))
for_ += "foo"
assertThat(for_).isEqualTo(listOf("foo"))
fun_ += HardKeywordsAllTypesProto2.NestedEnum.FOO
assertThat(fun_).isEqualTo(listOf(HardKeywordsAllTypesProto2.NestedEnum.FOO))
if_ += HardKeywordsAllTypesProto2Kt.nestedMessage { while_ = 1 }
assertThat(if_).isEqualTo(listOf(HardKeywordsAllTypesProto2Kt.nestedMessage { while_ = 1 }))
}
}
@Test
fun testHardKeywordHazzers() {
hardKeywordsAllTypesProto2 {
as_ = 1
assertThat(hasAs_()).isTrue()
in_ = "foo"
assertThat(hasIn_()).isTrue()
break_ = HardKeywordsAllTypesProto2.NestedEnum.FOO
assertThat(hasBreak_()).isTrue()
do_ = HardKeywordsAllTypesProto2Kt.nestedMessage { while_ = 1 }
assertThat(hasDo_()).isTrue()
}
}
@Test
fun testHardKeywordClears() {
hardKeywordsAllTypesProto2 {
as_ = 1
clearAs_()
assertThat(hasAs_()).isFalse()
in_ = "foo"
clearIn_()
assertThat(hasIn_()).isFalse()
break_ = HardKeywordsAllTypesProto2.NestedEnum.FOO
clearBreak_()
assertThat(hasBreak_()).isFalse()
do_ = HardKeywordsAllTypesProto2Kt.nestedMessage { while_ = 1 }
clearDo_()
assertThat(hasDo_()).isFalse()
}
}
@Test
fun testGetOrNull() {
val noNestedMessage = testAllTypes {}
assertThat(noNestedMessage.optionalNestedMessageOrNull).isEqualTo(null)
val someNestedMessage = testAllTypes {
optionalNestedMessage = TestAllTypesKt.nestedMessage { bb = 118 }
}
assertThat(someNestedMessage.optionalNestedMessageOrNull)
.isEqualTo(TestAllTypesKt.nestedMessage { bb = 118 })
}
}
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