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flutter / third_party / googleapis.dart / cfb023fcdc64acda8983659e524e6250fcf4233a / . / generated / googleapis / test / tpu / v1_test.dart
blob: 5662c9fd385220661793e62b7e2790dabd355124 [file] [log] [blame]
// ignore_for_file: camel_case_types
// ignore_for_file: comment_references
// ignore_for_file: file_names
// ignore_for_file: library_names
// ignore_for_file: lines_longer_than_80_chars
// ignore_for_file: non_constant_identifier_names
// ignore_for_file: prefer_expression_function_bodies
// ignore_for_file: prefer_final_locals
// ignore_for_file: prefer_interpolation_to_compose_strings
// ignore_for_file: unnecessary_brace_in_string_interps
// ignore_for_file: unnecessary_cast
// ignore_for_file: unnecessary_lambdas
// ignore_for_file: unnecessary_parenthesis
// ignore_for_file: unnecessary_string_interpolations
// ignore_for_file: avoid_returning_null
// ignore_for_file: cascade_invocations
// ignore_for_file: prefer_single_quotes
// ignore_for_file: unused_local_variable
import 'dart:async' as async;
import 'dart:convert' as convert;
import 'dart:core' as core;
import 'package:http/http.dart' as http;
import 'package:test/test.dart' as unittest;
import 'package:googleapis/tpu/v1.dart' as api;
import '../test_shared.dart';
core.int buildCounterAcceleratorType = 0;
api.AcceleratorType buildAcceleratorType() {
var o = api.AcceleratorType();
buildCounterAcceleratorType++;
if (buildCounterAcceleratorType < 3) {
o.name = 'foo';
o.type = 'foo';
}
buildCounterAcceleratorType--;
return o;
}
void checkAcceleratorType(api.AcceleratorType o) {
buildCounterAcceleratorType++;
if (buildCounterAcceleratorType < 3) {
unittest.expect(o.name, unittest.equals('foo'));
unittest.expect(o.type, unittest.equals('foo'));
}
buildCounterAcceleratorType--;
}
core.int buildCounterEmpty = 0;
api.Empty buildEmpty() {
var o = api.Empty();
buildCounterEmpty++;
if (buildCounterEmpty < 3) {}
buildCounterEmpty--;
return o;
}
void checkEmpty(api.Empty o) {
buildCounterEmpty++;
if (buildCounterEmpty < 3) {}
buildCounterEmpty--;
}
core.List<api.AcceleratorType> buildUnnamed5424() {
var o = <api.AcceleratorType>[];
o.add(buildAcceleratorType());
o.add(buildAcceleratorType());
return o;
}
void checkUnnamed5424(core.List<api.AcceleratorType> o) {
unittest.expect(o, unittest.hasLength(2));
checkAcceleratorType(o[0] as api.AcceleratorType);
checkAcceleratorType(o[1] as api.AcceleratorType);
}
core.List<core.String> buildUnnamed5425() {
var o = <core.String>[];
o.add('foo');
o.add('foo');
return o;
}
void checkUnnamed5425(core.List<core.String> o) {
unittest.expect(o, unittest.hasLength(2));
unittest.expect(o[0], unittest.equals('foo'));
unittest.expect(o[1], unittest.equals('foo'));
}
core.int buildCounterListAcceleratorTypesResponse = 0;
api.ListAcceleratorTypesResponse buildListAcceleratorTypesResponse() {
var o = api.ListAcceleratorTypesResponse();
buildCounterListAcceleratorTypesResponse++;
if (buildCounterListAcceleratorTypesResponse < 3) {
o.acceleratorTypes = buildUnnamed5424();
o.nextPageToken = 'foo';
o.unreachable = buildUnnamed5425();
}
buildCounterListAcceleratorTypesResponse--;
return o;
}
void checkListAcceleratorTypesResponse(api.ListAcceleratorTypesResponse o) {
buildCounterListAcceleratorTypesResponse++;
if (buildCounterListAcceleratorTypesResponse < 3) {
checkUnnamed5424(o.acceleratorTypes);
unittest.expect(o.nextPageToken, unittest.equals('foo'));
checkUnnamed5425(o.unreachable);
}
buildCounterListAcceleratorTypesResponse--;
}
core.List<api.Location> buildUnnamed5426() {
var o = <api.Location>[];
o.add(buildLocation());
o.add(buildLocation());
return o;
}
void checkUnnamed5426(core.List<api.Location> o) {
unittest.expect(o, unittest.hasLength(2));
checkLocation(o[0] as api.Location);
checkLocation(o[1] as api.Location);
}
core.int buildCounterListLocationsResponse = 0;
api.ListLocationsResponse buildListLocationsResponse() {
var o = api.ListLocationsResponse();
buildCounterListLocationsResponse++;
if (buildCounterListLocationsResponse < 3) {
o.locations = buildUnnamed5426();
o.nextPageToken = 'foo';
}
buildCounterListLocationsResponse--;
return o;
}
void checkListLocationsResponse(api.ListLocationsResponse o) {
buildCounterListLocationsResponse++;
if (buildCounterListLocationsResponse < 3) {
checkUnnamed5426(o.locations);
unittest.expect(o.nextPageToken, unittest.equals('foo'));
}
buildCounterListLocationsResponse--;
}
core.List<api.Node> buildUnnamed5427() {
var o = <api.Node>[];
o.add(buildNode());
o.add(buildNode());
return o;
}
void checkUnnamed5427(core.List<api.Node> o) {
unittest.expect(o, unittest.hasLength(2));
checkNode(o[0] as api.Node);
checkNode(o[1] as api.Node);
}
core.List<core.String> buildUnnamed5428() {
var o = <core.String>[];
o.add('foo');
o.add('foo');
return o;
}
void checkUnnamed5428(core.List<core.String> o) {
unittest.expect(o, unittest.hasLength(2));
unittest.expect(o[0], unittest.equals('foo'));
unittest.expect(o[1], unittest.equals('foo'));
}
core.int buildCounterListNodesResponse = 0;
api.ListNodesResponse buildListNodesResponse() {
var o = api.ListNodesResponse();
buildCounterListNodesResponse++;
if (buildCounterListNodesResponse < 3) {
o.nextPageToken = 'foo';
o.nodes = buildUnnamed5427();
o.unreachable = buildUnnamed5428();
}
buildCounterListNodesResponse--;
return o;
}
void checkListNodesResponse(api.ListNodesResponse o) {
buildCounterListNodesResponse++;
if (buildCounterListNodesResponse < 3) {
unittest.expect(o.nextPageToken, unittest.equals('foo'));
checkUnnamed5427(o.nodes);
checkUnnamed5428(o.unreachable);
}
buildCounterListNodesResponse--;
}
core.List<api.Operation> buildUnnamed5429() {
var o = <api.Operation>[];
o.add(buildOperation());
o.add(buildOperation());
return o;
}
void checkUnnamed5429(core.List<api.Operation> o) {
unittest.expect(o, unittest.hasLength(2));
checkOperation(o[0] as api.Operation);
checkOperation(o[1] as api.Operation);
}
core.int buildCounterListOperationsResponse = 0;
api.ListOperationsResponse buildListOperationsResponse() {
var o = api.ListOperationsResponse();
buildCounterListOperationsResponse++;
if (buildCounterListOperationsResponse < 3) {
o.nextPageToken = 'foo';
o.operations = buildUnnamed5429();
}
buildCounterListOperationsResponse--;
return o;
}
void checkListOperationsResponse(api.ListOperationsResponse o) {
buildCounterListOperationsResponse++;
if (buildCounterListOperationsResponse < 3) {
unittest.expect(o.nextPageToken, unittest.equals('foo'));
checkUnnamed5429(o.operations);
}
buildCounterListOperationsResponse--;
}
core.List<api.TensorFlowVersion> buildUnnamed5430() {
var o = <api.TensorFlowVersion>[];
o.add(buildTensorFlowVersion());
o.add(buildTensorFlowVersion());
return o;
}
void checkUnnamed5430(core.List<api.TensorFlowVersion> o) {
unittest.expect(o, unittest.hasLength(2));
checkTensorFlowVersion(o[0] as api.TensorFlowVersion);
checkTensorFlowVersion(o[1] as api.TensorFlowVersion);
}
core.List<core.String> buildUnnamed5431() {
var o = <core.String>[];
o.add('foo');
o.add('foo');
return o;
}
void checkUnnamed5431(core.List<core.String> o) {
unittest.expect(o, unittest.hasLength(2));
unittest.expect(o[0], unittest.equals('foo'));
unittest.expect(o[1], unittest.equals('foo'));
}
core.int buildCounterListTensorFlowVersionsResponse = 0;
api.ListTensorFlowVersionsResponse buildListTensorFlowVersionsResponse() {
var o = api.ListTensorFlowVersionsResponse();
buildCounterListTensorFlowVersionsResponse++;
if (buildCounterListTensorFlowVersionsResponse < 3) {
o.nextPageToken = 'foo';
o.tensorflowVersions = buildUnnamed5430();
o.unreachable = buildUnnamed5431();
}
buildCounterListTensorFlowVersionsResponse--;
return o;
}
void checkListTensorFlowVersionsResponse(api.ListTensorFlowVersionsResponse o) {
buildCounterListTensorFlowVersionsResponse++;
if (buildCounterListTensorFlowVersionsResponse < 3) {
unittest.expect(o.nextPageToken, unittest.equals('foo'));
checkUnnamed5430(o.tensorflowVersions);
checkUnnamed5431(o.unreachable);
}
buildCounterListTensorFlowVersionsResponse--;
}
core.Map<core.String, core.String> buildUnnamed5432() {
var o = <core.String, core.String>{};
o['x'] = 'foo';
o['y'] = 'foo';
return o;
}
void checkUnnamed5432(core.Map<core.String, core.String> o) {
unittest.expect(o, unittest.hasLength(2));
unittest.expect(o['x'], unittest.equals('foo'));
unittest.expect(o['y'], unittest.equals('foo'));
}
core.Map<core.String, core.Object> buildUnnamed5433() {
var o = <core.String, core.Object>{};
o['x'] = {
'list': [1, 2, 3],
'bool': true,
'string': 'foo'
};
o['y'] = {
'list': [1, 2, 3],
'bool': true,
'string': 'foo'
};
return o;
}
void checkUnnamed5433(core.Map<core.String, core.Object> o) {
unittest.expect(o, unittest.hasLength(2));
var casted1 = (o['x']) as core.Map;
unittest.expect(casted1, unittest.hasLength(3));
unittest.expect(casted1['list'], unittest.equals([1, 2, 3]));
unittest.expect(casted1['bool'], unittest.equals(true));
unittest.expect(casted1['string'], unittest.equals('foo'));
var casted2 = (o['y']) as core.Map;
unittest.expect(casted2, unittest.hasLength(3));
unittest.expect(casted2['list'], unittest.equals([1, 2, 3]));
unittest.expect(casted2['bool'], unittest.equals(true));
unittest.expect(casted2['string'], unittest.equals('foo'));
}
core.int buildCounterLocation = 0;
api.Location buildLocation() {
var o = api.Location();
buildCounterLocation++;
if (buildCounterLocation < 3) {
o.displayName = 'foo';
o.labels = buildUnnamed5432();
o.locationId = 'foo';
o.metadata = buildUnnamed5433();
o.name = 'foo';
}
buildCounterLocation--;
return o;
}
void checkLocation(api.Location o) {
buildCounterLocation++;
if (buildCounterLocation < 3) {
unittest.expect(o.displayName, unittest.equals('foo'));
checkUnnamed5432(o.labels);
unittest.expect(o.locationId, unittest.equals('foo'));
checkUnnamed5433(o.metadata);
unittest.expect(o.name, unittest.equals('foo'));
}
buildCounterLocation--;
}
core.int buildCounterNetworkEndpoint = 0;
api.NetworkEndpoint buildNetworkEndpoint() {
var o = api.NetworkEndpoint();
buildCounterNetworkEndpoint++;
if (buildCounterNetworkEndpoint < 3) {
o.ipAddress = 'foo';
o.port = 42;
}
buildCounterNetworkEndpoint--;
return o;
}
void checkNetworkEndpoint(api.NetworkEndpoint o) {
buildCounterNetworkEndpoint++;
if (buildCounterNetworkEndpoint < 3) {
unittest.expect(o.ipAddress, unittest.equals('foo'));
unittest.expect(o.port, unittest.equals(42));
}
buildCounterNetworkEndpoint--;
}
core.Map<core.String, core.String> buildUnnamed5434() {
var o = <core.String, core.String>{};
o['x'] = 'foo';
o['y'] = 'foo';
return o;
}
void checkUnnamed5434(core.Map<core.String, core.String> o) {
unittest.expect(o, unittest.hasLength(2));
unittest.expect(o['x'], unittest.equals('foo'));
unittest.expect(o['y'], unittest.equals('foo'));
}
core.List<api.NetworkEndpoint> buildUnnamed5435() {
var o = <api.NetworkEndpoint>[];
o.add(buildNetworkEndpoint());
o.add(buildNetworkEndpoint());
return o;
}
void checkUnnamed5435(core.List<api.NetworkEndpoint> o) {
unittest.expect(o, unittest.hasLength(2));
checkNetworkEndpoint(o[0] as api.NetworkEndpoint);
checkNetworkEndpoint(o[1] as api.NetworkEndpoint);
}
core.List<api.Symptom> buildUnnamed5436() {
var o = <api.Symptom>[];
o.add(buildSymptom());
o.add(buildSymptom());
return o;
}
void checkUnnamed5436(core.List<api.Symptom> o) {
unittest.expect(o, unittest.hasLength(2));
checkSymptom(o[0] as api.Symptom);
checkSymptom(o[1] as api.Symptom);
}
core.int buildCounterNode = 0;
api.Node buildNode() {
var o = api.Node();
buildCounterNode++;
if (buildCounterNode < 3) {
o.acceleratorType = 'foo';
o.cidrBlock = 'foo';
o.createTime = 'foo';
o.description = 'foo';
o.health = 'foo';
o.healthDescription = 'foo';
o.ipAddress = 'foo';
o.labels = buildUnnamed5434();
o.name = 'foo';
o.network = 'foo';
o.networkEndpoints = buildUnnamed5435();
o.port = 'foo';
o.schedulingConfig = buildSchedulingConfig();
o.serviceAccount = 'foo';
o.state = 'foo';
o.symptoms = buildUnnamed5436();
o.tensorflowVersion = 'foo';
o.useServiceNetworking = true;
}
buildCounterNode--;
return o;
}
void checkNode(api.Node o) {
buildCounterNode++;
if (buildCounterNode < 3) {
unittest.expect(o.acceleratorType, unittest.equals('foo'));
unittest.expect(o.cidrBlock, unittest.equals('foo'));
unittest.expect(o.createTime, unittest.equals('foo'));
unittest.expect(o.description, unittest.equals('foo'));
unittest.expect(o.health, unittest.equals('foo'));
unittest.expect(o.healthDescription, unittest.equals('foo'));
unittest.expect(o.ipAddress, unittest.equals('foo'));
checkUnnamed5434(o.labels);
unittest.expect(o.name, unittest.equals('foo'));
unittest.expect(o.network, unittest.equals('foo'));
checkUnnamed5435(o.networkEndpoints);
unittest.expect(o.port, unittest.equals('foo'));
checkSchedulingConfig(o.schedulingConfig as api.SchedulingConfig);
unittest.expect(o.serviceAccount, unittest.equals('foo'));
unittest.expect(o.state, unittest.equals('foo'));
checkUnnamed5436(o.symptoms);
unittest.expect(o.tensorflowVersion, unittest.equals('foo'));
unittest.expect(o.useServiceNetworking, unittest.isTrue);
}
buildCounterNode--;
}
core.Map<core.String, core.Object> buildUnnamed5437() {
var o = <core.String, core.Object>{};
o['x'] = {
'list': [1, 2, 3],
'bool': true,
'string': 'foo'
};
o['y'] = {
'list': [1, 2, 3],
'bool': true,
'string': 'foo'
};
return o;
}
void checkUnnamed5437(core.Map<core.String, core.Object> o) {
unittest.expect(o, unittest.hasLength(2));
var casted3 = (o['x']) as core.Map;
unittest.expect(casted3, unittest.hasLength(3));
unittest.expect(casted3['list'], unittest.equals([1, 2, 3]));
unittest.expect(casted3['bool'], unittest.equals(true));
unittest.expect(casted3['string'], unittest.equals('foo'));
var casted4 = (o['y']) as core.Map;
unittest.expect(casted4, unittest.hasLength(3));
unittest.expect(casted4['list'], unittest.equals([1, 2, 3]));
unittest.expect(casted4['bool'], unittest.equals(true));
unittest.expect(casted4['string'], unittest.equals('foo'));
}
core.Map<core.String, core.Object> buildUnnamed5438() {
var o = <core.String, core.Object>{};
o['x'] = {
'list': [1, 2, 3],
'bool': true,
'string': 'foo'
};
o['y'] = {
'list': [1, 2, 3],
'bool': true,
'string': 'foo'
};
return o;
}
void checkUnnamed5438(core.Map<core.String, core.Object> o) {
unittest.expect(o, unittest.hasLength(2));
var casted5 = (o['x']) as core.Map;
unittest.expect(casted5, unittest.hasLength(3));
unittest.expect(casted5['list'], unittest.equals([1, 2, 3]));
unittest.expect(casted5['bool'], unittest.equals(true));
unittest.expect(casted5['string'], unittest.equals('foo'));
var casted6 = (o['y']) as core.Map;
unittest.expect(casted6, unittest.hasLength(3));
unittest.expect(casted6['list'], unittest.equals([1, 2, 3]));
unittest.expect(casted6['bool'], unittest.equals(true));
unittest.expect(casted6['string'], unittest.equals('foo'));
}
core.int buildCounterOperation = 0;
api.Operation buildOperation() {
var o = api.Operation();
buildCounterOperation++;
if (buildCounterOperation < 3) {
o.done = true;
o.error = buildStatus();
o.metadata = buildUnnamed5437();
o.name = 'foo';
o.response = buildUnnamed5438();
}
buildCounterOperation--;
return o;
}
void checkOperation(api.Operation o) {
buildCounterOperation++;
if (buildCounterOperation < 3) {
unittest.expect(o.done, unittest.isTrue);
checkStatus(o.error as api.Status);
checkUnnamed5437(o.metadata);
unittest.expect(o.name, unittest.equals('foo'));
checkUnnamed5438(o.response);
}
buildCounterOperation--;
}
core.int buildCounterOperationMetadata = 0;
api.OperationMetadata buildOperationMetadata() {
var o = api.OperationMetadata();
buildCounterOperationMetadata++;
if (buildCounterOperationMetadata < 3) {
o.apiVersion = 'foo';
o.cancelRequested = true;
o.createTime = 'foo';
o.endTime = 'foo';
o.statusDetail = 'foo';
o.target = 'foo';
o.verb = 'foo';
}
buildCounterOperationMetadata--;
return o;
}
void checkOperationMetadata(api.OperationMetadata o) {
buildCounterOperationMetadata++;
if (buildCounterOperationMetadata < 3) {
unittest.expect(o.apiVersion, unittest.equals('foo'));
unittest.expect(o.cancelRequested, unittest.isTrue);
unittest.expect(o.createTime, unittest.equals('foo'));
unittest.expect(o.endTime, unittest.equals('foo'));
unittest.expect(o.statusDetail, unittest.equals('foo'));
unittest.expect(o.target, unittest.equals('foo'));
unittest.expect(o.verb, unittest.equals('foo'));
}
buildCounterOperationMetadata--;
}
core.int buildCounterReimageNodeRequest = 0;
api.ReimageNodeRequest buildReimageNodeRequest() {
var o = api.ReimageNodeRequest();
buildCounterReimageNodeRequest++;
if (buildCounterReimageNodeRequest < 3) {
o.tensorflowVersion = 'foo';
}
buildCounterReimageNodeRequest--;
return o;
}
void checkReimageNodeRequest(api.ReimageNodeRequest o) {
buildCounterReimageNodeRequest++;
if (buildCounterReimageNodeRequest < 3) {
unittest.expect(o.tensorflowVersion, unittest.equals('foo'));
}
buildCounterReimageNodeRequest--;
}
core.int buildCounterSchedulingConfig = 0;
api.SchedulingConfig buildSchedulingConfig() {
var o = api.SchedulingConfig();
buildCounterSchedulingConfig++;
if (buildCounterSchedulingConfig < 3) {
o.preemptible = true;
o.reserved = true;
}
buildCounterSchedulingConfig--;
return o;
}
void checkSchedulingConfig(api.SchedulingConfig o) {
buildCounterSchedulingConfig++;
if (buildCounterSchedulingConfig < 3) {
unittest.expect(o.preemptible, unittest.isTrue);
unittest.expect(o.reserved, unittest.isTrue);
}
buildCounterSchedulingConfig--;
}
core.int buildCounterStartNodeRequest = 0;
api.StartNodeRequest buildStartNodeRequest() {
var o = api.StartNodeRequest();
buildCounterStartNodeRequest++;
if (buildCounterStartNodeRequest < 3) {}
buildCounterStartNodeRequest--;
return o;
}
void checkStartNodeRequest(api.StartNodeRequest o) {
buildCounterStartNodeRequest++;
if (buildCounterStartNodeRequest < 3) {}
buildCounterStartNodeRequest--;
}
core.Map<core.String, core.Object> buildUnnamed5439() {
var o = <core.String, core.Object>{};
o['x'] = {
'list': [1, 2, 3],
'bool': true,
'string': 'foo'
};
o['y'] = {
'list': [1, 2, 3],
'bool': true,
'string': 'foo'
};
return o;
}
void checkUnnamed5439(core.Map<core.String, core.Object> o) {
unittest.expect(o, unittest.hasLength(2));
var casted7 = (o['x']) as core.Map;
unittest.expect(casted7, unittest.hasLength(3));
unittest.expect(casted7['list'], unittest.equals([1, 2, 3]));
unittest.expect(casted7['bool'], unittest.equals(true));
unittest.expect(casted7['string'], unittest.equals('foo'));
var casted8 = (o['y']) as core.Map;
unittest.expect(casted8, unittest.hasLength(3));
unittest.expect(casted8['list'], unittest.equals([1, 2, 3]));
unittest.expect(casted8['bool'], unittest.equals(true));
unittest.expect(casted8['string'], unittest.equals('foo'));
}
core.List<core.Map<core.String, core.Object>> buildUnnamed5440() {
var o = <core.Map<core.String, core.Object>>[];
o.add(buildUnnamed5439());
o.add(buildUnnamed5439());
return o;
}
void checkUnnamed5440(core.List<core.Map<core.String, core.Object>> o) {
unittest.expect(o, unittest.hasLength(2));
checkUnnamed5439(o[0]);
checkUnnamed5439(o[1]);
}
core.int buildCounterStatus = 0;
api.Status buildStatus() {
var o = api.Status();
buildCounterStatus++;
if (buildCounterStatus < 3) {
o.code = 42;
o.details = buildUnnamed5440();
o.message = 'foo';
}
buildCounterStatus--;
return o;
}
void checkStatus(api.Status o) {
buildCounterStatus++;
if (buildCounterStatus < 3) {
unittest.expect(o.code, unittest.equals(42));
checkUnnamed5440(o.details);
unittest.expect(o.message, unittest.equals('foo'));
}
buildCounterStatus--;
}
core.int buildCounterStopNodeRequest = 0;
api.StopNodeRequest buildStopNodeRequest() {
var o = api.StopNodeRequest();
buildCounterStopNodeRequest++;
if (buildCounterStopNodeRequest < 3) {}
buildCounterStopNodeRequest--;
return o;
}
void checkStopNodeRequest(api.StopNodeRequest o) {
buildCounterStopNodeRequest++;
if (buildCounterStopNodeRequest < 3) {}
buildCounterStopNodeRequest--;
}
core.int buildCounterSymptom = 0;
api.Symptom buildSymptom() {
var o = api.Symptom();
buildCounterSymptom++;
if (buildCounterSymptom < 3) {
o.createTime = 'foo';
o.details = 'foo';
o.symptomType = 'foo';
o.workerId = 'foo';
}
buildCounterSymptom--;
return o;
}
void checkSymptom(api.Symptom o) {
buildCounterSymptom++;
if (buildCounterSymptom < 3) {
unittest.expect(o.createTime, unittest.equals('foo'));
unittest.expect(o.details, unittest.equals('foo'));
unittest.expect(o.symptomType, unittest.equals('foo'));
unittest.expect(o.workerId, unittest.equals('foo'));
}
buildCounterSymptom--;
}
core.int buildCounterTensorFlowVersion = 0;
api.TensorFlowVersion buildTensorFlowVersion() {
var o = api.TensorFlowVersion();
buildCounterTensorFlowVersion++;
if (buildCounterTensorFlowVersion < 3) {
o.name = 'foo';
o.version = 'foo';
}
buildCounterTensorFlowVersion--;
return o;
}
void checkTensorFlowVersion(api.TensorFlowVersion o) {
buildCounterTensorFlowVersion++;
if (buildCounterTensorFlowVersion < 3) {
unittest.expect(o.name, unittest.equals('foo'));
unittest.expect(o.version, unittest.equals('foo'));
}
buildCounterTensorFlowVersion--;
}
void main() {
unittest.group('obj-schema-AcceleratorType', () {
unittest.test('to-json--from-json', () {
var o = buildAcceleratorType();
var od = api.AcceleratorType.fromJson(o.toJson());
checkAcceleratorType(od as api.AcceleratorType);
});
});
unittest.group('obj-schema-Empty', () {
unittest.test('to-json--from-json', () {
var o = buildEmpty();
var od = api.Empty.fromJson(o.toJson());
checkEmpty(od as api.Empty);
});
});
unittest.group('obj-schema-ListAcceleratorTypesResponse', () {
unittest.test('to-json--from-json', () {
var o = buildListAcceleratorTypesResponse();
var od = api.ListAcceleratorTypesResponse.fromJson(o.toJson());
checkListAcceleratorTypesResponse(od as api.ListAcceleratorTypesResponse);
});
});
unittest.group('obj-schema-ListLocationsResponse', () {
unittest.test('to-json--from-json', () {
var o = buildListLocationsResponse();
var od = api.ListLocationsResponse.fromJson(o.toJson());
checkListLocationsResponse(od as api.ListLocationsResponse);
});
});
unittest.group('obj-schema-ListNodesResponse', () {
unittest.test('to-json--from-json', () {
var o = buildListNodesResponse();
var od = api.ListNodesResponse.fromJson(o.toJson());
checkListNodesResponse(od as api.ListNodesResponse);
});
});
unittest.group('obj-schema-ListOperationsResponse', () {
unittest.test('to-json--from-json', () {
var o = buildListOperationsResponse();
var od = api.ListOperationsResponse.fromJson(o.toJson());
checkListOperationsResponse(od as api.ListOperationsResponse);
});
});
unittest.group('obj-schema-ListTensorFlowVersionsResponse', () {
unittest.test('to-json--from-json', () {
var o = buildListTensorFlowVersionsResponse();
var od = api.ListTensorFlowVersionsResponse.fromJson(o.toJson());
checkListTensorFlowVersionsResponse(
od as api.ListTensorFlowVersionsResponse);
});
});
unittest.group('obj-schema-Location', () {
unittest.test('to-json--from-json', () {
var o = buildLocation();
var od = api.Location.fromJson(o.toJson());
checkLocation(od as api.Location);
});
});
unittest.group('obj-schema-NetworkEndpoint', () {
unittest.test('to-json--from-json', () {
var o = buildNetworkEndpoint();
var od = api.NetworkEndpoint.fromJson(o.toJson());
checkNetworkEndpoint(od as api.NetworkEndpoint);
});
});
unittest.group('obj-schema-Node', () {
unittest.test('to-json--from-json', () {
var o = buildNode();
var od = api.Node.fromJson(o.toJson());
checkNode(od as api.Node);
});
});
unittest.group('obj-schema-Operation', () {
unittest.test('to-json--from-json', () {
var o = buildOperation();
var od = api.Operation.fromJson(o.toJson());
checkOperation(od as api.Operation);
});
});
unittest.group('obj-schema-OperationMetadata', () {
unittest.test('to-json--from-json', () {
var o = buildOperationMetadata();
var od = api.OperationMetadata.fromJson(o.toJson());
checkOperationMetadata(od as api.OperationMetadata);
});
});
unittest.group('obj-schema-ReimageNodeRequest', () {
unittest.test('to-json--from-json', () {
var o = buildReimageNodeRequest();
var od = api.ReimageNodeRequest.fromJson(o.toJson());
checkReimageNodeRequest(od as api.ReimageNodeRequest);
});
});
unittest.group('obj-schema-SchedulingConfig', () {
unittest.test('to-json--from-json', () {
var o = buildSchedulingConfig();
var od = api.SchedulingConfig.fromJson(o.toJson());
checkSchedulingConfig(od as api.SchedulingConfig);
});
});
unittest.group('obj-schema-StartNodeRequest', () {
unittest.test('to-json--from-json', () {
var o = buildStartNodeRequest();
var od = api.StartNodeRequest.fromJson(o.toJson());
checkStartNodeRequest(od as api.StartNodeRequest);
});
});
unittest.group('obj-schema-Status', () {
unittest.test('to-json--from-json', () {
var o = buildStatus();
var od = api.Status.fromJson(o.toJson());
checkStatus(od as api.Status);
});
});
unittest.group('obj-schema-StopNodeRequest', () {
unittest.test('to-json--from-json', () {
var o = buildStopNodeRequest();
var od = api.StopNodeRequest.fromJson(o.toJson());
checkStopNodeRequest(od as api.StopNodeRequest);
});
});
unittest.group('obj-schema-Symptom', () {
unittest.test('to-json--from-json', () {
var o = buildSymptom();
var od = api.Symptom.fromJson(o.toJson());
checkSymptom(od as api.Symptom);
});
});
unittest.group('obj-schema-TensorFlowVersion', () {
unittest.test('to-json--from-json', () {
var o = buildTensorFlowVersion();
var od = api.TensorFlowVersion.fromJson(o.toJson());
checkTensorFlowVersion(od as api.TensorFlowVersion);
});
});
unittest.group('resource-ProjectsLocationsResourceApi', () {
unittest.test('method--get', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations;
var arg_name = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildLocation());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.get(arg_name, $fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkLocation(response as api.Location);
})));
});
unittest.test('method--list', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations;
var arg_name = 'foo';
var arg_filter = 'foo';
var arg_pageSize = 42;
var arg_pageToken = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["filter"].first, unittest.equals(arg_filter));
unittest.expect(core.int.parse(queryMap["pageSize"].first),
unittest.equals(arg_pageSize));
unittest.expect(
queryMap["pageToken"].first, unittest.equals(arg_pageToken));
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildListLocationsResponse());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.list(arg_name,
filter: arg_filter,
pageSize: arg_pageSize,
pageToken: arg_pageToken,
$fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkListLocationsResponse(response as api.ListLocationsResponse);
})));
});
});
unittest.group('resource-ProjectsLocationsAcceleratorTypesResourceApi', () {
unittest.test('method--get', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.acceleratorTypes;
var arg_name = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildAcceleratorType());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.get(arg_name, $fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkAcceleratorType(response as api.AcceleratorType);
})));
});
unittest.test('method--list', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.acceleratorTypes;
var arg_parent = 'foo';
var arg_filter = 'foo';
var arg_orderBy = 'foo';
var arg_pageSize = 42;
var arg_pageToken = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["filter"].first, unittest.equals(arg_filter));
unittest.expect(
queryMap["orderBy"].first, unittest.equals(arg_orderBy));
unittest.expect(core.int.parse(queryMap["pageSize"].first),
unittest.equals(arg_pageSize));
unittest.expect(
queryMap["pageToken"].first, unittest.equals(arg_pageToken));
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildListAcceleratorTypesResponse());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.list(arg_parent,
filter: arg_filter,
orderBy: arg_orderBy,
pageSize: arg_pageSize,
pageToken: arg_pageToken,
$fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkListAcceleratorTypesResponse(
response as api.ListAcceleratorTypesResponse);
})));
});
});
unittest.group('resource-ProjectsLocationsNodesResourceApi', () {
unittest.test('method--create', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.nodes;
var arg_request = buildNode();
var arg_parent = 'foo';
var arg_nodeId = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var obj =
api.Node.fromJson(json as core.Map<core.String, core.dynamic>);
checkNode(obj as api.Node);
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["nodeId"].first, unittest.equals(arg_nodeId));
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildOperation());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.create(arg_request, arg_parent,
nodeId: arg_nodeId, $fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkOperation(response as api.Operation);
})));
});
unittest.test('method--delete', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.nodes;
var arg_name = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildOperation());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.delete(arg_name, $fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkOperation(response as api.Operation);
})));
});
unittest.test('method--get', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.nodes;
var arg_name = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildNode());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.get(arg_name, $fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkNode(response as api.Node);
})));
});
unittest.test('method--list', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.nodes;
var arg_parent = 'foo';
var arg_pageSize = 42;
var arg_pageToken = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(core.int.parse(queryMap["pageSize"].first),
unittest.equals(arg_pageSize));
unittest.expect(
queryMap["pageToken"].first, unittest.equals(arg_pageToken));
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildListNodesResponse());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.list(arg_parent,
pageSize: arg_pageSize,
pageToken: arg_pageToken,
$fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkListNodesResponse(response as api.ListNodesResponse);
})));
});
unittest.test('method--reimage', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.nodes;
var arg_request = buildReimageNodeRequest();
var arg_name = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var obj = api.ReimageNodeRequest.fromJson(
json as core.Map<core.String, core.dynamic>);
checkReimageNodeRequest(obj as api.ReimageNodeRequest);
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildOperation());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.reimage(arg_request, arg_name, $fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkOperation(response as api.Operation);
})));
});
unittest.test('method--start', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.nodes;
var arg_request = buildStartNodeRequest();
var arg_name = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var obj = api.StartNodeRequest.fromJson(
json as core.Map<core.String, core.dynamic>);
checkStartNodeRequest(obj as api.StartNodeRequest);
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildOperation());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.start(arg_request, arg_name, $fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkOperation(response as api.Operation);
})));
});
unittest.test('method--stop', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.nodes;
var arg_request = buildStopNodeRequest();
var arg_name = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var obj = api.StopNodeRequest.fromJson(
json as core.Map<core.String, core.dynamic>);
checkStopNodeRequest(obj as api.StopNodeRequest);
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildOperation());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.stop(arg_request, arg_name, $fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkOperation(response as api.Operation);
})));
});
});
unittest.group('resource-ProjectsLocationsOperationsResourceApi', () {
unittest.test('method--cancel', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.operations;
var arg_name = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildEmpty());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.cancel(arg_name, $fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkEmpty(response as api.Empty);
})));
});
unittest.test('method--delete', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.operations;
var arg_name = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildEmpty());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.delete(arg_name, $fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkEmpty(response as api.Empty);
})));
});
unittest.test('method--get', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.operations;
var arg_name = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildOperation());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.get(arg_name, $fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkOperation(response as api.Operation);
})));
});
unittest.test('method--list', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.operations;
var arg_name = 'foo';
var arg_filter = 'foo';
var arg_pageSize = 42;
var arg_pageToken = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["filter"].first, unittest.equals(arg_filter));
unittest.expect(core.int.parse(queryMap["pageSize"].first),
unittest.equals(arg_pageSize));
unittest.expect(
queryMap["pageToken"].first, unittest.equals(arg_pageToken));
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildListOperationsResponse());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.list(arg_name,
filter: arg_filter,
pageSize: arg_pageSize,
pageToken: arg_pageToken,
$fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkListOperationsResponse(response as api.ListOperationsResponse);
})));
});
});
unittest.group('resource-ProjectsLocationsTensorflowVersionsResourceApi', () {
unittest.test('method--get', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.tensorflowVersions;
var arg_name = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildTensorFlowVersion());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.get(arg_name, $fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkTensorFlowVersion(response as api.TensorFlowVersion);
})));
});
unittest.test('method--list', () {
var mock = HttpServerMock();
var res = api.TpuApi(mock).projects.locations.tensorflowVersions;
var arg_parent = 'foo';
var arg_filter = 'foo';
var arg_orderBy = 'foo';
var arg_pageSize = 42;
var arg_pageToken = 'foo';
var arg_$fields = 'foo';
mock.register(unittest.expectAsync2((http.BaseRequest req, json) {
var path = (req.url).path;
var pathOffset = 0;
core.int index;
core.String subPart;
unittest.expect(
path.substring(pathOffset, pathOffset + 1), unittest.equals("/"));
pathOffset += 1;
unittest.expect(
path.substring(pathOffset, pathOffset + 3), unittest.equals("v1/"));
pathOffset += 3;
// NOTE: We cannot test reserved expansions due to the inability to reverse the operation;
var query = (req.url).query;
var queryOffset = 0;
var queryMap = <core.String, core.List<core.String>>{};
void addQueryParam(core.String n, core.String v) =>
queryMap.putIfAbsent(n, () => []).add(v);
if (query.isNotEmpty) {
for (var part in query.split('&')) {
var keyValue = part.split('=');
addQueryParam(
core.Uri.decodeQueryComponent(keyValue[0]),
core.Uri.decodeQueryComponent(keyValue[1]),
);
}
}
unittest.expect(queryMap["filter"].first, unittest.equals(arg_filter));
unittest.expect(
queryMap["orderBy"].first, unittest.equals(arg_orderBy));
unittest.expect(core.int.parse(queryMap["pageSize"].first),
unittest.equals(arg_pageSize));
unittest.expect(
queryMap["pageToken"].first, unittest.equals(arg_pageToken));
unittest.expect(queryMap["fields"].first, unittest.equals(arg_$fields));
var h = {
'content-type': 'application/json; charset=utf-8',
};
var resp = convert.json.encode(buildListTensorFlowVersionsResponse());
return async.Future.value(stringResponse(200, h, resp));
}), true);
res
.list(arg_parent,
filter: arg_filter,
orderBy: arg_orderBy,
pageSize: arg_pageSize,
pageToken: arg_pageToken,
$fields: arg_$fields)
.then(unittest.expectAsync1(((response) {
checkListTensorFlowVersionsResponse(
response as api.ListTensorFlowVersionsResponse);
})));
});
});
}