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flutter / mirrors / packages / refs/tags/pigeon-v6.0.2 / . / packages / pigeon / test / kotlin_generator_test.dart
blob: a725a1b7103729cf96f0ecaf7058dd9551c9f672 [file] [log] [blame]
// Copyright 2013 The Flutter Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import 'package:pigeon/ast.dart';
import 'package:pigeon/kotlin_generator.dart';
import 'package:test/test.dart';
void main() {
test('gen one class', () {
final Class klass = Class(
name: 'Foobar',
fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'int',
isNullable: true,
),
name: 'field1',
),
],
);
final Root root = Root(
apis: <Api>[],
classes: <Class>[klass],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('data class Foobar ('));
expect(code, contains('val field1: Long? = null'));
expect(code, contains('fun fromList(list: List<Any?>): Foobar'));
expect(code, contains('fun toList(): List<Any?>'));
});
test('gen one enum', () {
final Enum anEnum = Enum(
name: 'Foobar',
members: <EnumMember>[
EnumMember(name: 'one'),
EnumMember(name: 'two'),
],
);
final Root root = Root(
apis: <Api>[],
classes: <Class>[],
enums: <Enum>[anEnum],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('enum class Foobar(val raw: Int) {'));
expect(code, contains('ONE(0)'));
expect(code, contains('TWO(1)'));
});
test('gen class with enum', () {
final Root root = Root(
apis: <Api>[],
classes: <Class>[
Class(
name: 'Bar',
fields: <NamedType>[
NamedType(
name: 'field1',
type: const TypeDeclaration(
baseName: 'Foo',
isNullable: false,
),
),
NamedType(
name: 'field2',
type: const TypeDeclaration(
baseName: 'String',
isNullable: false,
),
),
],
),
],
enums: <Enum>[
Enum(
name: 'Foo',
members: <EnumMember>[
EnumMember(name: 'one'),
EnumMember(name: 'two'),
],
),
],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('enum class Foo(val raw: Int) {'));
expect(code, contains('data class Bar ('));
expect(code, contains('val field1: Foo,'));
expect(code, contains('val field2: String'));
expect(code, contains('fun fromList(list: List<Any?>): Bar'));
expect(code, contains('val field1 = Foo.ofRaw(list[0] as Int)!!\n'));
expect(code, contains('val field2 = list[1] as String\n'));
expect(code, contains('fun toList(): List<Any?>'));
});
test('primitive enum host', () {
final Root root = Root(apis: <Api>[
Api(name: 'Bar', location: ApiLocation.host, methods: <Method>[
Method(
name: 'bar',
returnType: const TypeDeclaration.voidDeclaration(),
arguments: <NamedType>[
NamedType(
name: 'foo',
type:
const TypeDeclaration(baseName: 'Foo', isNullable: false))
])
])
], classes: <Class>[], enums: <Enum>[
Enum(name: 'Foo', members: <EnumMember>[
EnumMember(name: 'one'),
EnumMember(name: 'two'),
])
]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('enum class Foo(val raw: Int) {'));
expect(code, contains('val fooArg = Foo.ofRaw(args[0] as Int)'));
});
test('gen one host api', () {
final Root root = Root(apis: <Api>[
Api(name: 'Api', location: ApiLocation.host, methods: <Method>[
Method(
name: 'doSomething',
arguments: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'Input',
isNullable: false,
),
name: 'input',
)
],
returnType:
const TypeDeclaration(baseName: 'Output', isNullable: false),
)
])
], classes: <Class>[
Class(name: 'Input', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'input',
)
]),
Class(name: 'Output', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'output',
)
])
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('interface Api'));
expect(code, contains('fun doSomething(input: Input): Output'));
expect(code, contains('channel.setMessageHandler'));
expect(code, contains('''
if (api != null) {
channel.setMessageHandler { message, reply ->
var wrapped = listOf<Any?>()
try {
val args = message as List<Any?>
val inputArg = args[0] as Input
wrapped = listOf<Any?>(api.doSomething(inputArg))
} catch (exception: Error) {
wrapped = wrapError(exception)
}
reply.reply(wrapped)
}
} else {
channel.setMessageHandler(null)
}
'''));
});
test('all the simple datatypes header', () {
final Root root = Root(apis: <Api>[], classes: <Class>[
Class(name: 'Foobar', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'bool',
isNullable: true,
),
name: 'aBool',
),
NamedType(
type: const TypeDeclaration(
baseName: 'int',
isNullable: true,
),
name: 'aInt',
),
NamedType(
type: const TypeDeclaration(
baseName: 'double',
isNullable: true,
),
name: 'aDouble',
),
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'aString',
),
NamedType(
type: const TypeDeclaration(
baseName: 'Uint8List',
isNullable: true,
),
name: 'aUint8List',
),
NamedType(
type: const TypeDeclaration(
baseName: 'Int32List',
isNullable: true,
),
name: 'aInt32List',
),
NamedType(
type: const TypeDeclaration(
baseName: 'Int64List',
isNullable: true,
),
name: 'aInt64List',
),
NamedType(
type: const TypeDeclaration(
baseName: 'Float64List',
isNullable: true,
),
name: 'aFloat64List',
),
]),
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('val aBool: Boolean? = null'));
expect(code, contains('val aInt: Long? = null'));
expect(code, contains('val aDouble: Double? = null'));
expect(code, contains('val aString: String? = null'));
expect(code, contains('val aUint8List: ByteArray? = null'));
expect(code, contains('val aInt32List: IntArray? = null'));
expect(code, contains('val aInt64List: LongArray? = null'));
expect(code, contains('val aFloat64List: DoubleArray? = null'));
});
test('gen one flutter api', () {
final Root root = Root(apis: <Api>[
Api(name: 'Api', location: ApiLocation.flutter, methods: <Method>[
Method(
name: 'doSomething',
arguments: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'Input',
isNullable: false,
),
name: '',
)
],
returnType:
const TypeDeclaration(baseName: 'Output', isNullable: false),
)
])
], classes: <Class>[
Class(name: 'Input', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'input',
)
]),
Class(name: 'Output', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'output',
)
])
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code,
contains('class Api(private val binaryMessenger: BinaryMessenger)'));
expect(code, matches('fun doSomething.*Input.*Output'));
});
test('gen host void api', () {
final Root root = Root(apis: <Api>[
Api(name: 'Api', location: ApiLocation.host, methods: <Method>[
Method(
name: 'doSomething',
arguments: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'Input',
isNullable: false,
),
name: '',
)
],
returnType: const TypeDeclaration.voidDeclaration(),
)
])
], classes: <Class>[
Class(name: 'Input', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'input',
)
]),
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, isNot(matches('.*doSomething(.*) ->')));
expect(code, matches('doSomething(.*)'));
});
test('gen flutter void return api', () {
final Root root = Root(apis: <Api>[
Api(name: 'Api', location: ApiLocation.flutter, methods: <Method>[
Method(
name: 'doSomething',
arguments: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'Input',
isNullable: false,
),
name: '',
)
],
returnType: const TypeDeclaration.voidDeclaration(),
)
])
], classes: <Class>[
Class(name: 'Input', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'input',
)
]),
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('callback: () -> Unit'));
expect(code, contains('callback()'));
});
test('gen host void argument api', () {
final Root root = Root(apis: <Api>[
Api(name: 'Api', location: ApiLocation.host, methods: <Method>[
Method(
name: 'doSomething',
arguments: <NamedType>[],
returnType:
const TypeDeclaration(baseName: 'Output', isNullable: false),
)
])
], classes: <Class>[
Class(name: 'Output', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'output',
)
]),
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('fun doSomething(): Output'));
expect(code, contains('wrapped = listOf<Any?>(api.doSomething())'));
expect(code, contains('wrapped = wrapError(exception)'));
expect(code, contains('reply(wrapped)'));
});
test('gen flutter void argument api', () {
final Root root = Root(apis: <Api>[
Api(name: 'Api', location: ApiLocation.flutter, methods: <Method>[
Method(
name: 'doSomething',
arguments: <NamedType>[],
returnType:
const TypeDeclaration(baseName: 'Output', isNullable: false),
)
])
], classes: <Class>[
Class(name: 'Output', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'output',
)
]),
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('fun doSomething(callback: (Output) -> Unit)'));
expect(code, contains('channel.send(null)'));
});
test('gen list', () {
final Root root = Root(apis: <Api>[], classes: <Class>[
Class(name: 'Foobar', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'List',
isNullable: true,
),
name: 'field1',
)
]),
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('data class Foobar'));
expect(code, contains('val field1: List<Any?>? = null'));
});
test('gen map', () {
final Root root = Root(apis: <Api>[], classes: <Class>[
Class(name: 'Foobar', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'Map',
isNullable: true,
),
name: 'field1',
)
]),
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('data class Foobar'));
expect(code, contains('val field1: Map<Any, Any?>? = null'));
});
test('gen nested', () {
final Class klass = Class(
name: 'Outer',
fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'Nested',
isNullable: true,
),
name: 'nested',
)
],
);
final Class nestedClass = Class(
name: 'Nested',
fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'int',
isNullable: true,
),
name: 'data',
)
],
);
final Root root = Root(
apis: <Api>[],
classes: <Class>[klass, nestedClass],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('data class Outer'));
expect(code, contains('data class Nested'));
expect(code, contains('val nested: Nested? = null'));
expect(code, contains('fun fromList(list: List<Any?>): Outer'));
expect(
code, contains('val nested: Nested? = (list[0] as? List<Any?>)?.let'));
expect(code, contains('Nested.fromList(it)'));
expect(code, contains('fun toList(): List<Any?>'));
});
test('gen one async Host Api', () {
final Root root = Root(apis: <Api>[
Api(name: 'Api', location: ApiLocation.host, methods: <Method>[
Method(
name: 'doSomething',
arguments: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'Input',
isNullable: false,
),
name: 'arg',
)
],
returnType:
const TypeDeclaration(baseName: 'Output', isNullable: false),
isAsynchronous: true,
)
])
], classes: <Class>[
Class(name: 'Input', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'input',
)
]),
Class(name: 'Output', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'output',
)
])
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('interface Api'));
expect(code, contains('api.doSomething(argArg) {'));
expect(code, contains('reply.reply(wrapResult(it))'));
});
test('gen one async Flutter Api', () {
final Root root = Root(apis: <Api>[
Api(name: 'Api', location: ApiLocation.flutter, methods: <Method>[
Method(
name: 'doSomething',
arguments: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'Input',
isNullable: false,
),
name: '',
)
],
returnType:
const TypeDeclaration(baseName: 'Output', isNullable: false),
isAsynchronous: true,
)
])
], classes: <Class>[
Class(name: 'Input', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'input',
)
]),
Class(name: 'Output', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'output',
)
])
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('class Api'));
expect(code, matches('fun doSomething.*Input.*callback.*Output.*Unit'));
});
test('gen one enum class', () {
final Enum anEnum = Enum(
name: 'Enum1',
members: <EnumMember>[
EnumMember(name: 'one'),
EnumMember(name: 'two'),
],
);
final Class klass = Class(
name: 'EnumClass',
fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'Enum1',
isNullable: true,
),
name: 'enum1',
),
],
);
final Root root = Root(
apis: <Api>[],
classes: <Class>[klass],
enums: <Enum>[anEnum],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('enum class Enum1(val raw: Int)'));
expect(code, contains('ONE(0)'));
expect(code, contains('TWO(1)'));
});
Iterable<String> makeIterable(String string) sync* {
yield string;
}
test('header', () {
final Root root = Root(apis: <Api>[], classes: <Class>[], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
final KotlinOptions kotlinOptions = KotlinOptions(
copyrightHeader: makeIterable('hello world'),
);
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, startsWith('// hello world'));
});
test('generics - list', () {
final Class klass = Class(
name: 'Foobar',
fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'List',
isNullable: true,
typeArguments: <TypeDeclaration>[
TypeDeclaration(baseName: 'int', isNullable: true)
]),
name: 'field1',
),
],
);
final Root root = Root(
apis: <Api>[],
classes: <Class>[klass],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('data class Foobar'));
expect(code, contains('val field1: List<Long?>'));
});
test('generics - maps', () {
final Class klass = Class(
name: 'Foobar',
fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'Map',
isNullable: true,
typeArguments: <TypeDeclaration>[
TypeDeclaration(baseName: 'String', isNullable: true),
TypeDeclaration(baseName: 'String', isNullable: true),
]),
name: 'field1',
),
],
);
final Root root = Root(
apis: <Api>[],
classes: <Class>[klass],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('data class Foobar'));
expect(code, contains('val field1: Map<String?, String?>'));
});
test('host generics argument', () {
final Root root = Root(
apis: <Api>[
Api(name: 'Api', location: ApiLocation.host, methods: <Method>[
Method(
name: 'doit',
returnType: const TypeDeclaration.voidDeclaration(),
arguments: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'List',
isNullable: false,
typeArguments: <TypeDeclaration>[
TypeDeclaration(baseName: 'int', isNullable: true)
]),
name: 'arg',
)
])
])
],
classes: <Class>[],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('fun doit(arg: List<Long?>'));
});
test('flutter generics argument', () {
final Root root = Root(
apis: <Api>[
Api(name: 'Api', location: ApiLocation.flutter, methods: <Method>[
Method(
name: 'doit',
returnType: const TypeDeclaration.voidDeclaration(),
arguments: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'List',
isNullable: false,
typeArguments: <TypeDeclaration>[
TypeDeclaration(baseName: 'int', isNullable: true)
]),
name: 'arg',
)
])
])
],
classes: <Class>[],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('fun doit(argArg: List<Long?>'));
});
test('host generics return', () {
final Root root = Root(
apis: <Api>[
Api(name: 'Api', location: ApiLocation.host, methods: <Method>[
Method(
name: 'doit',
returnType: const TypeDeclaration(
baseName: 'List',
isNullable: false,
typeArguments: <TypeDeclaration>[
TypeDeclaration(baseName: 'int', isNullable: true)
]),
arguments: <NamedType>[])
])
],
classes: <Class>[],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('fun doit(): List<Long?>'));
expect(code, contains('wrapped = listOf<Any?>(api.doit())'));
expect(code, contains('reply.reply(wrapped)'));
});
test('flutter generics return', () {
final Root root = Root(
apis: <Api>[
Api(name: 'Api', location: ApiLocation.flutter, methods: <Method>[
Method(
name: 'doit',
returnType: const TypeDeclaration(
baseName: 'List',
isNullable: false,
typeArguments: <TypeDeclaration>[
TypeDeclaration(baseName: 'int', isNullable: true)
]),
arguments: <NamedType>[])
])
],
classes: <Class>[],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('fun doit(callback: (List<Long?>) -> Unit'));
expect(code, contains('val result = it as List<Long?>'));
expect(code, contains('callback(result)'));
});
test('host multiple args', () {
final Root root = Root(apis: <Api>[
Api(name: 'Api', location: ApiLocation.host, methods: <Method>[
Method(
name: 'add',
arguments: <NamedType>[
NamedType(
name: 'x',
type:
const TypeDeclaration(isNullable: false, baseName: 'int')),
NamedType(
name: 'y',
type:
const TypeDeclaration(isNullable: false, baseName: 'int')),
],
returnType: const TypeDeclaration(baseName: 'int', isNullable: false),
)
])
], classes: <Class>[], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('fun add(x: Long, y: Long): Long'));
expect(code, contains('val args = message as List<Any?>'));
expect(
code,
contains(
'val xArg = args[0].let { if (it is Int) it.toLong() else it as Long }'));
expect(
code,
contains(
'val yArg = args[1].let { if (it is Int) it.toLong() else it as Long }'));
expect(code, contains('wrapped = listOf<Any?>(api.add(xArg, yArg))'));
expect(code, contains('reply.reply(wrapped)'));
});
test('flutter multiple args', () {
final Root root = Root(apis: <Api>[
Api(name: 'Api', location: ApiLocation.flutter, methods: <Method>[
Method(
name: 'add',
arguments: <NamedType>[
NamedType(
name: 'x',
type:
const TypeDeclaration(baseName: 'int', isNullable: false)),
NamedType(
name: 'y',
type:
const TypeDeclaration(baseName: 'int', isNullable: false)),
],
returnType: const TypeDeclaration(baseName: 'int', isNullable: false),
)
])
], classes: <Class>[], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('val channel = BasicMessageChannel'));
expect(code, contains('val result = it as Long'));
expect(code, contains('callback(result)'));
expect(code,
contains('fun add(xArg: Long, yArg: Long, callback: (Long) -> Unit)'));
expect(code, contains('channel.send(listOf(xArg, yArg)) {'));
});
test('return nullable host', () {
final Root root = Root(
apis: <Api>[
Api(name: 'Api', location: ApiLocation.host, methods: <Method>[
Method(
name: 'doit',
returnType: const TypeDeclaration(
baseName: 'int',
isNullable: true,
),
arguments: <NamedType>[])
])
],
classes: <Class>[],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('fun doit(): Long?'));
});
test('return nullable host async', () {
final Root root = Root(
apis: <Api>[
Api(name: 'Api', location: ApiLocation.host, methods: <Method>[
Method(
name: 'doit',
returnType: const TypeDeclaration(
baseName: 'int',
isNullable: true,
),
isAsynchronous: true,
arguments: <NamedType>[])
])
],
classes: <Class>[],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('fun doit(callback: (Long?) -> Unit'));
});
test('nullable argument host', () {
final Root root = Root(
apis: <Api>[
Api(name: 'Api', location: ApiLocation.host, methods: <Method>[
Method(
name: 'doit',
returnType: const TypeDeclaration.voidDeclaration(),
arguments: <NamedType>[
NamedType(
name: 'foo',
type: const TypeDeclaration(
baseName: 'int',
isNullable: true,
)),
])
])
],
classes: <Class>[],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(
code,
contains(
'val fooArg = args[0].let { if (it is Int) it.toLong() else it as? Long }'));
});
test('nullable argument flutter', () {
final Root root = Root(
apis: <Api>[
Api(name: 'Api', location: ApiLocation.flutter, methods: <Method>[
Method(
name: 'doit',
returnType: const TypeDeclaration.voidDeclaration(),
arguments: <NamedType>[
NamedType(
name: 'foo',
type: const TypeDeclaration(
baseName: 'int',
isNullable: true,
)),
])
])
],
classes: <Class>[],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('fun doit(fooArg: Long?, callback: () -> Unit'));
});
test('nonnull fields', () {
final Root root = Root(apis: <Api>[
Api(name: 'Api', location: ApiLocation.host, methods: <Method>[
Method(
name: 'doSomething',
arguments: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'Input',
isNullable: false,
),
name: '',
)
],
returnType: const TypeDeclaration.voidDeclaration(),
)
])
], classes: <Class>[
Class(name: 'Input', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: false,
),
name: 'input',
)
]),
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains('val input: String\n'));
});
test('transfers documentation comments', () {
final List<String> comments = <String>[
' api comment',
' api method comment',
' class comment',
' class field comment',
' enum comment',
' enum member comment',
];
int count = 0;
final List<String> unspacedComments = <String>['////////'];
int unspacedCount = 0;
final Root root = Root(
apis: <Api>[
Api(
name: 'api',
location: ApiLocation.flutter,
documentationComments: <String>[comments[count++]],
methods: <Method>[
Method(
name: 'method',
returnType: const TypeDeclaration.voidDeclaration(),
documentationComments: <String>[comments[count++]],
arguments: <NamedType>[
NamedType(
name: 'field',
type: const TypeDeclaration(
baseName: 'int',
isNullable: true,
),
),
],
)
],
)
],
classes: <Class>[
Class(
name: 'class',
documentationComments: <String>[comments[count++]],
fields: <NamedType>[
NamedType(
documentationComments: <String>[comments[count++]],
type: const TypeDeclaration(
baseName: 'Map',
isNullable: true,
typeArguments: <TypeDeclaration>[
TypeDeclaration(baseName: 'String', isNullable: true),
TypeDeclaration(baseName: 'int', isNullable: true),
]),
name: 'field1',
),
],
),
],
enums: <Enum>[
Enum(
name: 'enum',
documentationComments: <String>[
comments[count++],
unspacedComments[unspacedCount++]
],
members: <EnumMember>[
EnumMember(
name: 'one',
documentationComments: <String>[comments[count++]],
),
EnumMember(name: 'two'),
],
),
],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
for (final String comment in comments) {
// This regex finds the comment only between the open and close comment block
expect(
RegExp(r'(?<=\/\*\*.*?)' + comment + r'(?=.*?\*\/)', dotAll: true)
.hasMatch(code),
true);
}
expect(code, isNot(contains('*//')));
});
test('doesnt create codecs if no custom datatypes', () {
final Root root = Root(
apis: <Api>[
Api(
name: 'Api',
location: ApiLocation.flutter,
methods: <Method>[
Method(
name: 'method',
returnType: const TypeDeclaration.voidDeclaration(),
arguments: <NamedType>[
NamedType(
name: 'field',
type: const TypeDeclaration(
baseName: 'int',
isNullable: true,
),
),
],
)
],
)
],
classes: <Class>[],
enums: <Enum>[],
);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, isNot(contains(' : StandardMessageCodec() ')));
expect(code, contains('StandardMessageCodec'));
});
test('creates custom codecs if custom datatypes present', () {
final Root root = Root(apis: <Api>[
Api(name: 'Api', location: ApiLocation.flutter, methods: <Method>[
Method(
name: 'doSomething',
arguments: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'Input',
isNullable: false,
),
name: '')
],
returnType:
const TypeDeclaration(baseName: 'Output', isNullable: false),
isAsynchronous: true,
)
])
], classes: <Class>[
Class(name: 'Input', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'input')
]),
Class(name: 'Output', fields: <NamedType>[
NamedType(
type: const TypeDeclaration(
baseName: 'String',
isNullable: true,
),
name: 'output')
])
], enums: <Enum>[]);
final StringBuffer sink = StringBuffer();
const KotlinOptions kotlinOptions = KotlinOptions();
const KotlinGenerator generator = KotlinGenerator();
generator.generate(kotlinOptions, root, sink);
final String code = sink.toString();
expect(code, contains(' : StandardMessageCodec() '));
});
}