public void Selects_ok()
{
var input = new[] { "1", "2", "3" };
var output = GenericCollectionUtils.Select(input, x => Int32.Parse(x));
Assert.AreElementsEqual(new[] { 1, 2, 3 }, output);
}
public void GetItemsDelegatesToTheStrategy()
{
MergedDataSet dataSet = new MergedDataSet();
IDataSet provider = Mocks.Stub <IDataSet>();
dataSet.AddDataSet(provider);
IMergeStrategy strategy = Mocks.StrictMock <IMergeStrategy>();
dataSet.Strategy = strategy;
IEnumerable <IDataItem> results = Mocks.Stub <IEnumerable <IDataItem> >();
DataBinding[] bindings = new DataBinding[0];
using (Mocks.Record())
{
Expect.Call(strategy.Merge(null, null, false)).IgnoreArguments().Do((MergeDelegate) delegate(IList <IDataProvider> mergeProviders, ICollection <DataBinding> mergeBindings,
bool includeDynamicItems)
{
Assert.IsTrue(includeDynamicItems);
Assert.AreElementsEqual(new IDataProvider[] { provider }, mergeProviders);
Assert.AreSame(bindings, mergeBindings);
return(results);
});
}
using (Mocks.Playback())
{
Assert.AreSame(results, dataSet.GetItems(bindings, true));
}
}
public void RulesConstructor_WhenSuccessful_InitializesProperties()
{
var filterRules = new[] { new FilterRule <object>(FilterRuleType.Exclusion, new AnyFilter <object>()), new FilterRule <object>(FilterRuleType.Inclusion, new NoneFilter <object>()) };
var filterSet = new FilterSet <object>(filterRules);
Assert.AreElementsEqual(filterRules, filterSet.Rules);
}
public void GenerateSequence(string testMethod, decimal[] expectedOutput)
{
var run = Runner.GetPrimaryTestStepRun(CodeReference.CreateFromMember(typeof(SequentiaNumbersSample).GetMethod(testMethod)));
string[] lines = run.Children.Select(x => x.TestLog.GetStream(MarkupStreamNames.Default).ToString()).ToArray();
Assert.AreElementsEqual(expectedOutput, lines.Select(x => Decimal.Parse(Regex.Match(x, @"\[(?<value>-?(\d*\.)?\d+)\]").Groups["value"].Value)));
}
public void CanConvertVectorToArray()
{
var vector = CreateVector(Data);
var array = vector.ToArray();
Assert.AreElementsEqual(vector, array);
}
public void Messages_sent_while_link_is_down_should_be_received_later()
{
Start(Consumer);
if (!consumerReady.WaitOne(5000))
{
Assert.Fail("Consumer did not start in time");
}
Start(Publisher);
for (var i = 0; i < 10; i++)
{
Publish(i);
if (i == 5)
{
StopFederationProxy();
Thread.Sleep(100); // without this sleep at times the test fails because of message 6 not being received
}
}
Thread.Sleep(2000);
StartFederationProxy();
Thread.Sleep(5000); // leave some time to plugin to redeliver messages
SpinWait.SpinUntil(() => result.Count == 10, 2000);
Publish(-1);
Assert.AreElementsEqual(Enumerable.Range(0, 10), result);
}
public void Nack_with_requeue()
{
numberOfExpectedMessages = 11;
ulong toRedeliverSince = 0;
onReceived = (model, deliveryTag) =>
{
if (received.Count == 1)
{
toRedeliverSince = deliveryTag;
}
if (received.Count == 10)
{
model.BasicNack(toRedeliverSince, false, true);
}
};
Start(() => Consumer(false));
Thread.Sleep(100);
Start(Producer);
SpinWait.SpinUntil(ReceivedAllMessages, 2000);
Assert.AreElementsEqual(expectedMessages.Concat(new[] { 0 }), received);
}
public void When_consumer_model_is_closed_unexpectedly_it_should_be_restored_and_receive_all_messages_in_sequence()
{
for (int i = 0; i < 100; i++)
{
Bus.Publish(new MyMessage {
Value = i
});
}
Assert.IsTrue(consumer.WaitForDelivery(2 * ConsumerDelayMs * 10, 90));
Bus.Consumer.Model.Close();
consumer.WaitForDelivery(2 * ConsumerDelayMs * 90, 50);
for (int i = 100; i < 150; i++)
{
Bus.Publish(new MyMessage {
Value = i
});
}
consumer.WaitForDelivery(2 * ConsumerDelayMs * 50);
Assert.AreElementsEqual(Enumerable.Range(0, 150), consumer.Received.Select(r => r.Value));
}
private void Then_contact_book_does_not_contain_removed_contact_any_more(ScenarioContext ctx)
{
Assert.AreElementsEqual(
Enumerable.Empty <Contact>(),
ctx.ContactBook.Contacts.Where(c => ctx.RemovedContacts.Contains(c)).ToArray(),
"Contact book should not contain removed books");
}
public void Nack_with_multiple_and_requeue_requeues_nacked_messages_in_the_order_they_were_published()
{
numberOfExpectedMessages = 15;
ulong toRedeliverSince = 0;
onReceived = (model, deliveryTag) =>
{
if (received.Count == 5)
{
toRedeliverSince = deliveryTag;
}
if (received.Count == 10)
{
model.BasicNack(toRedeliverSince, true, true);
}
};
Start(() => Consumer(false));
Thread.Sleep(100);
Start(Producer);
SpinWait.SpinUntil(ReceivedAllMessages, 2000);
Assert.AreElementsEqual(expectedMessages.Concat(new[] { 0, 1, 2, 3, 4 }), received);
}
public void CopyToTest()
{
var destination = new KeyValuePair <string, int> [1];
testObject.CopyTo(destination, 0);
Assert.AreElementsEqual(destination, testObject);
}
public void KeyedPairs_Failure_LeftLongerThanRight()
{
AssertionFailure[] failures = AssertTest.Capture(
() => Assert.Over.KeyedPairs(
new Dictionary <int, string> {
{ 1, "a" }, { 2, "b" }
},
new Dictionary <int, string> {
{ 2, "b" }
},
Assert.GreaterThanOrEqualTo,
"Hello {0}.", "World"));
Assert.Count(1, failures);
Assert.AreEqual("Expected the left and right dictionaries to have the same number of items.", failures[0].Description);
Assert.AreEqual("Hello World.", failures[0].Message);
Assert.AreElementsEqual(new[]
{
new AssertionFailure.LabeledValue("Left Dictionary Count", "2"),
new AssertionFailure.LabeledValue("Right Dictionary Count", "1"),
new AssertionFailure.LabeledValue("Left Dictionary", "[1: \"a\", 2: \"b\"]"),
new AssertionFailure.LabeledValue("Right Dictionary", "[2: \"b\"]")
}, failures[0].LabeledValues);
Assert.Count(0, failures[0].InnerFailures);
}
public void KeyedPairs_Failure_AtIndex()
{
AssertionFailure[] failures = AssertTest.Capture(
() => Assert.Over.KeyedPairs(
new Dictionary <int, string> {
{ 1, "a" }, { 2, "b" }
},
new Dictionary <int, string> {
{ 1, "a" }, { 2, "c" }
},
Assert.GreaterThanOrEqualTo,
"Hello {0}.", "World"));
Assert.Count(1, failures);
Assert.AreEqual("Assertion failed on two pairs with a particular key in both dictionaries.", failures[0].Description);
Assert.AreEqual("Hello World.", failures[0].Message);
Assert.AreElementsEqual(new[]
{
new AssertionFailure.LabeledValue("Key", "2"),
new AssertionFailure.LabeledValue("Left Dictionary", "[1: \"a\", 2: \"b\"]"),
new AssertionFailure.LabeledValue("Right Dictionary", "[1: \"a\", 2: \"c\"]")
}, failures[0].LabeledValues);
Assert.Count(1, failures[0].InnerFailures);
}
public void When_client_link_goes_down_and_restores_it_should_receive_all_messages_in_sequence()
{
for (int i = 0; i < 100; i++)
{
Bus.Publish(new MyMessage {
Value = i
});
}
Assert.IsTrue(consumer.WaitForDelivery(2 * ConsumerDelayMs * 10, 90));
StopAlternativePortProxy();
Thread.Sleep(100);
StartAlternativePortProxy();
consumer.WaitForDelivery((int)(SecondaryBus.ConnectionAttemptInterval.TotalMilliseconds + 2 * ConsumerDelayMs * 90), 50);
for (int i = 100; i < 150; i++)
{
Bus.Publish(new MyMessage {
Value = i
});
}
consumer.WaitForDelivery((int)(SecondaryBus.ConnectionAttemptInterval.TotalMilliseconds + 2 * ConsumerDelayMs * 50));
Assert.AreElementsEqual(Enumerable.Range(0, 150), consumer.Received.Select(r => r.Value));
}
public void GetNavigatorChildren()
{
TestStepRunNode tree = BuildFakeTree();
IEnumerable <TestStepRunNode> nodes = tree.GetNavigatorChildren();
Assert.AreElementsEqual(new[] { "321", "323", "324", "332" }, nodes.Select(x => x.Run.Step.Id));
}
public void LoadTabDelimitedFile()
{
List <string> dataoutput = EmitDynamicToDataTableToListOfStringsVanillaTest(
FlatFileToDataTableBuilder.BuildFromTabFile(@"..\Framework\Data\DataObjects\TestXlsData.txt"));
Assert.AreElementsEqual(TestDataSet1, dataoutput);
}
public void GetSelfAndAncestorIds()
{
TestStepRunNode tree = BuildFakeTree();
var child321 = tree.Children[2].Children[1].Children[0];
Assert.AreElementsEqual(new[] { "Test-321", "Test-32", "Test-3", "Test-Root" }, child321.GetSelfAndAncestorIds());
}
public void ShouldCopyMetadataWhenRequested()
{
CopyMetadataPlugin plugin = new CopyMetadataPlugin();
using (ImageState state = CreateImageState(true))
{
RequestedAction requestedAction = CallProcessFinalBitmap(plugin, state);
Assert.AreEqual(RequestedAction.None, requestedAction);
Assert.IsNotEmpty(state.destBitmap.PropertyIdList);
Assert.IsNotEmpty(state.destBitmap.PropertyItems);
// Ensure that all the properties came from the original image...
foreach (PropertyItem prop in state.destBitmap.PropertyItems)
{
PropertyItem sourceProp = state.sourceBitmap.PropertyItems.SingleOrDefault(p => p.Id == prop.Id);
Assert.IsNotNull(sourceProp, "destBitmap ended up with a property that sourceBitmap didn't have!");
Assert.AreEqual(sourceProp.Len, prop.Len);
Assert.AreEqual(sourceProp.Type, prop.Type);
Assert.AreEqual(sourceProp.Len, prop.Len);
Assert.AreElementsEqual(sourceProp.Value, prop.Value);
}
}
}
public void AddingDataSetsUpdatesTheColumnCountAndDataSetsCollection()
{
MergedDataSet dataSet = new MergedDataSet();
IDataSet dataSetWithTwoColumns = Mocks.StrictMock <IDataSet>();
IDataSet dataSetWithThreeColumns = Mocks.StrictMock <IDataSet>();
using (Mocks.Record())
{
SetupResult.For(dataSetWithTwoColumns.ColumnCount).Return(2);
SetupResult.For(dataSetWithThreeColumns.ColumnCount).Return(3);
}
using (Mocks.Playback())
{
Assert.AreEqual(0, dataSet.ColumnCount);
Assert.AreElementsEqual(new IDataSet[] { }, dataSet.DataSets);
dataSet.AddDataSet(dataSetWithTwoColumns);
Assert.AreEqual(2, dataSet.ColumnCount);
Assert.AreElementsEqual(new IDataSet[] { dataSetWithTwoColumns }, dataSet.DataSets);
dataSet.AddDataSet(dataSetWithThreeColumns);
Assert.AreEqual(3, dataSet.ColumnCount);
Assert.AreElementsEqual(new IDataSet[] { dataSetWithTwoColumns, dataSetWithThreeColumns }, dataSet.DataSets);
}
}
public void DeserializeAllSetupDataWithPropertyBuilderAndEmptyBuildParameters()
{
// <NStub.CSharp.ObjectGeneration.Builders.DefaultMethodEraser><EmptyBuildParameters>
var expectedBuilderType = typeof(PropertyBuilder);
var expectedParameterType = typeof(EmptyBuildParameters);
var expectedEnabled = true;
string buildParametersXmlId = "BuildParameters";
var xml = TestDataProvider.BuildParametersMinimal(buildParametersXmlId, expectedBuilderType, expectedParameterType, expectedEnabled);
Expect.Call(handler.Type).Return(expectedBuilderType).Repeat.Any();
Expect.Call(handler.IsMultiBuilder).Return(false).Repeat.Any();
//Expect.Call(handler.ParameterDataType).Return(typeof(string)).Repeat.Any();
Expect.Call(handler.ParameterDataType).Return(expectedParameterType).Repeat.Any();
mocks.ReplayAll();
var result = testObject.DeserializeAllSetupData(xml, properties, new[] { handler });
var expected = new EmptyBuildParameters();
expected.Enabled = expectedEnabled;
//Assert.AreElementsEqual(new[] { expected }, result,
// (x, y) => x.Enabled == y.Enabled && x.GetType() == y.GetType());
Assert.AreElementsEqual(new[] { expected }, result);
Assert.AreEqual(1, properties.EntryCount);
// ensure there is a global entry for the PropertyBuilder containing an EmptyBuildParameters instance.
Assert.Contains(properties.General, new KeyValuePair <string, IBuilderData>(expectedBuilderType.FullName, expected));
mocks.VerifyAll();
}
private Test CreateCopyToTest()
{
return(new TestCase("CopyTo", () =>
{
AssertDistinctIntancesNotEmpty();
var collection = GetSafeDefaultInstance();
var handler = new CollectionHandler <TCollection, TItem>(collection, Context);
var initialContent = new ReadOnlyCollection <TItem>(new List <TItem>(collection));
foreach (var item in DistinctInstances)
{
if (!IsReadOnly && !initialContent.Contains(item))
{
handler.AddSingleItemOk(item);
}
}
const int extension = 5;
int count = collection.Count;
var target = new TItem[count + extension];
AssertCopyToThrowException(() => collection.CopyTo(null, 0), "when called with a null argument.", "Argument Name", "array");
AssertCopyToThrowException(() => collection.CopyTo(target, -1), "when called with a negative index.", "Argument Name", "arrayIndex");
for (int i = 0; i <= extension; i++)
{
AssertCopyToNotThrowException(() => collection.CopyTo(target, i), "Expected the method to not throw an exception.");
var clone = new TItem[count];
Array.Copy(target, i, clone, 0, count);
Assert.AreElementsEqual(collection, clone);
}
AssertCopyToThrowException(() => collection.CopyTo(target, extension + 1), "when called with a too large array index.", "Argument Name", "arrayIndex");
}));
}
public void ByteArrayContruction(byte[] hashBytes)
{
var hash = new Hash256(hashBytes);
var roundTrip = hash.Bytes;
Assert.AreElementsEqual(hashBytes, roundTrip);
}
public void DefaultConstruction()
{
var hash = new Hash256();
Assert.AreEqual(Hash256.Empty, hash);
Assert.AreElementsEqual(Hash256.Empty.Bytes, hash.Bytes);
}
public void Using_the_same_seed_should_generate_the_same_sequence_from_regex()
{
var sequence1 = GetActualValues("RandomRegexWithSeed1");
var sequence2 = GetActualValues("RandomRegexWithSeed2");
Assert.AreElementsEqual(sequence1, sequence2);
}
public void TransitiveConversion()
{
int[] sourceValue = new int[] { 1, 2, 3 };
string[] targetValue = (string[])Converter.Convert(sourceValue, typeof(string[]));
Assert.AreElementsEqual(new string[] { "1", "2", "3" }, targetValue);
}
public void Should_generate_sequential_numbers_for_same_message_type()
{
var expectedSequence = new[] { 1u, 2u, 3u };
var result = expectedSequence.Select(i => sut.Next(typeof(MyMessage)));
Assert.AreElementsEqual(expectedSequence, result);
}
public void TryDecodeWithCheck([Bind(2)] byte[] expected, [Bind(0)] string encoded)
{
byte[] plaintext;
var success = Base58Convert.DecodeWithCheck(encoded, out plaintext);
Assert.IsTrue(success);
Assert.AreElementsEqual(expected, plaintext);
}
public void CanConvertArrayToSparseVector()
{
var array = new[] { 0.0, 1.0, 2.0, 3.0, 4.0 };
var vector = new SparseVector(array);
Assert.IsInstanceOfType(typeof(SparseVector), vector);
Assert.AreElementsEqual(array, array);
}
public void CanConvertSparseVectorToArray()
{
var vector = new SparseVector(Data);
var array = vector.ToArray();
Assert.IsInstanceOfType(typeof(double[]), array);
Assert.AreElementsEqual(vector, array);
}
public void AssertEquality(object other)
{
Assert.IsNotNull(other);
Assert.IsInstanceOfType <IDictionaryProperty>(other);
IDictionaryProperty target = other as IDictionaryProperty;
Assert.AreElementsEqual(this.Value, target.Value);
}