private static HeapState ConstructBasicState()
{
var states = ImmutableSortedDictionary.CreateRange(new[]
{
new KeyValuePair <int, VariableState>(VariableState.NullId, VariableState.Null)
});
var varStateMap = ImmutableDictionary.CreateRange(new[]
{
new KeyValuePair <VersionedVariable, int>(VersionedVariable.Null, VariableState.NullId)
});
var stateVarsMap = ImmutableDictionary.CreateRange(new[]
{
new KeyValuePair <int, ImmutableList <VersionedVariable> >(
VariableState.NullId,
ImmutableList.Create(VersionedVariable.Null))
});
return(new HeapState(
states,
varStateMap,
stateVarsMap,
ImmutableDictionary <IFieldDefinition, ArrayHandle <IntHandle, Handle> > .Empty,
1,
1));
}
public void PruneElements(IEnumerable <KeyValuePair <UInt256, IEnumerable <int> > > blockTxIndices)
{
foreach (var keyPair in blockTxIndices)
{
var blockHash = keyPair.Key;
var txIndices = keyPair.Value;
ImmutableSortedDictionary <int, BlockTxNode> blockTxNodes;
if (this.allBlockTxNodes.TryGetValue(blockHash, out blockTxNodes))
{
var pruningCursor = new MemoryMerkleTreePruningCursor <BlockTxNode>(blockTxNodes.Values);
foreach (var index in txIndices)
{
MerkleTree.PruneNode(pruningCursor, index);
}
var prunedBlockTxes =
ImmutableSortedDictionary.CreateRange <int, BlockTxNode>(
pruningCursor.ReadNodes().Select(blockTx =>
new KeyValuePair <int, BlockTxNode>(blockTx.Index, blockTx)));
this.allBlockTxNodes[blockHash] = prunedBlockTxes;
}
}
}
public bool TryAddBlockTransactions(UInt256 blockHash, IEnumerable <Transaction> blockTxes)
{
return(this.allBlockTxes.TryAdd(blockHash,
ImmutableSortedDictionary.CreateRange <int, BlockTx>(
blockTxes.Select((tx, txIndex) =>
new KeyValuePair <int, BlockTx>(txIndex, new BlockTx(txIndex, 0, tx.Hash, false, tx))))));
}
public void Setup()
{
List <string> list = new List <string> {
};
Dictionary <string, string> dict = new Dictionary <string, string> {
};
for (int i = 0; i < ElementCount; i++)
{
list.Add($"hello{i}");
dict.Add($"hello{i}", $"world{i}");
}
_iimmutablelist = ImmutableList.CreateRange(list);
_iimmutablestack = ImmutableStack.CreateRange(list);
_iimmutablequeue = ImmutableQueue.CreateRange(list);
_iimmutableset = ImmutableHashSet.CreateRange(list);
_iimmutabledictionary = ImmutableDictionary.CreateRange(dict);
_immutablearray = ImmutableArray.CreateRange(list);
_immutablelist = ImmutableList.CreateRange(list);
_immutablestack = ImmutableStack.CreateRange(list);
_immutablequeue = ImmutableQueue.CreateRange(list);
_immutablesortedset = ImmutableSortedSet.CreateRange(list);
_immutablehashset = ImmutableHashSet.CreateRange(list);
_immutabledictionary = ImmutableDictionary.CreateRange(dict);
_immutablesorteddictionary = ImmutableSortedDictionary.CreateRange(dict);
_jsonListString = System.Text.Json.JsonSerializer.Serialize(list);
_jsonDictString = System.Text.Json.JsonSerializer.Serialize(dict);
}
public void WriteImmutableSortedDictionaryOfInt32()
{
ImmutableSortedDictionary <int, int> value = ImmutableSortedDictionary.CreateRange(new SortedDictionary <int, int>
{
{ 1, 1 },
{ 2, 2 },
{ 3, 3 }
});
const string expectedHexBuffer = "A3010102020303";
Helper.TestWrite(value, expectedHexBuffer);
}
public void ReadImmutableSortedDictionaryOfInt32()
{
ImmutableSortedDictionary <int, int> expectedValue = ImmutableSortedDictionary.CreateRange(new SortedDictionary <int, int>
{
{ 1, 1 },
{ 2, 2 },
{ 3, 3 }
});
const string hexBuffer = "A3010102020303";
Helper.TestRead(hexBuffer, expectedValue);
}
public ProjectState(ProjectInfo projectInfo, HostLanguageServices languageServices, SolutionServices solutionServices)
{
Contract.ThrowIfNull(projectInfo);
Contract.ThrowIfNull(languageServices);
Contract.ThrowIfNull(solutionServices);
_languageServices = languageServices;
_solutionServices = solutionServices;
var projectInfoFixed = FixProjectInfo(projectInfo);
// We need to compute our AnalyerConfigDocumentStates first, since we use those to produce our DocumentStates
_analyzerConfigDocumentStates = ImmutableSortedDictionary.CreateRange(DocumentIdComparer.Instance,
projectInfoFixed.AnalyzerConfigDocuments.Select(d =>
KeyValuePairUtil.Create(d.Id, new AnalyzerConfigDocumentState(d, solutionServices))));
_lazyAnalyzerConfigSet = ComputeAnalyzerConfigSetValueSource(_analyzerConfigDocumentStates.Values);
// Add analyzer config information to the compilation options
if (projectInfoFixed.CompilationOptions != null)
{
projectInfoFixed = projectInfoFixed.WithCompilationOptions(
projectInfoFixed.CompilationOptions.WithSyntaxTreeOptionsProvider(
new WorkspaceSyntaxTreeOptionsProvider(_lazyAnalyzerConfigSet)));
}
_documentIds = projectInfoFixed.Documents.Select(d => d.Id).ToImmutableList();
_additionalDocumentIds = projectInfoFixed.AdditionalDocuments.Select(d => d.Id).ToImmutableList();
var parseOptions = projectInfoFixed.ParseOptions;
var docStates = ImmutableSortedDictionary.CreateRange(DocumentIdComparer.Instance,
projectInfoFixed.Documents.Select(d =>
new KeyValuePair <DocumentId, DocumentState>(d.Id,
CreateDocument(d, parseOptions))));
_documentStates = docStates;
var additionalDocStates = ImmutableSortedDictionary.CreateRange(DocumentIdComparer.Instance,
projectInfoFixed.AdditionalDocuments.Select(d =>
new KeyValuePair <DocumentId, TextDocumentState>(d.Id, new TextDocumentState(d, solutionServices))));
_additionalDocumentStates = additionalDocStates;
_lazyLatestDocumentVersion = new AsyncLazy <VersionStamp>(c => ComputeLatestDocumentVersionAsync(docStates, additionalDocStates, c), cacheResult: true);
_lazyLatestDocumentTopLevelChangeVersion = new AsyncLazy <VersionStamp>(c => ComputeLatestDocumentTopLevelChangeVersionAsync(docStates, additionalDocStates, c), cacheResult: true);
// ownership of information on document has moved to project state. clear out documentInfo the state is
// holding on. otherwise, these information will be held onto unnecessarily by projectInfo even after
// the info has changed by DocumentState.
// we hold onto the info so that we don't need to duplicate all information info already has in the state
_projectInfo = ClearAllDocumentsFromProjectInfo(projectInfoFixed);
_lazyChecksums = new AsyncLazy <ProjectStateChecksums>(ComputeChecksumsAsync, cacheResult: true);
}
/// <summary>
/// Initializes a new instance of <see cref="OrderBook"/> with details.
/// </summary>
/// <param name="source">The name of exchange.</param>
/// <param name="asset">The asset pair.</param>
/// <param name="timestamp">The creation time of order book. </param>
/// <param name="asks">The levels of sell orders in order book.</param>
/// <param name="bids">The levels of buy orders in order book.</param>
private OrderBook(
string source,
string asset,
DateTime timestamp,
IEnumerable <KeyValuePair <decimal, decimal> > asks,
IEnumerable <KeyValuePair <decimal, decimal> > bids)
{
Source = source;
Asset = asset;
Timestamp = timestamp;
AskLevels = ImmutableSortedDictionary.CreateRange(asks);
BidLevels = ImmutableSortedDictionary.CreateRange(DescComparer, bids);
}
private IDictionary <int, string> changedByPos()
{
if (this.changedByPosMap == null)
{
SortedDictionary <int, string> res = new SortedDictionary <int, string>();
foreach (int pos in changedFields)
{
res[pos] = updates[pos - 1];
}
changedByPosMap = ImmutableSortedDictionary.CreateRange(res);
}
return(changedByPosMap);
}
private void AddAmbiguous(InternalEntityTypeBuilder entityTypeBuilder, IEnumerable <PropertyInfo> navigationProperties, Type targetType)
{
var newAmbiguousNavigations = ImmutableSortedDictionary.CreateRange(PropertyInfoNameComparer.Instance,
navigationProperties.Select(n => new KeyValuePair <PropertyInfo, Type>(n, targetType)));
var currentAmbiguousNavigations = GetAmbigousNavigations(entityTypeBuilder.Metadata);
if (currentAmbiguousNavigations != null)
{
newAmbiguousNavigations = currentAmbiguousNavigations.AddRange(newAmbiguousNavigations);
}
SetAmbigousNavigations(entityTypeBuilder, newAmbiguousNavigations);
}
private IDictionary <string, string> changedByName()
{
if (this.changedByNameMap == null)
{
SortedDictionary <string, string> res = new SortedDictionary <string, string>(new OrderedFieldNamesComparator(this));
foreach (int pos in changedFields)
{
res[fields.getName(pos)] = updates[pos - 1];
}
changedByNameMap = ImmutableSortedDictionary.CreateRange(res);
}
return(changedByNameMap);
}
public void SerializeSortedDictionary()
{
ImmutableSortedDictionary<int, string> l = ImmutableSortedDictionary.CreateRange(new SortedDictionary<int, string>
{
{ 1, "One" },
{ 2, "II" },
{ 3, "3" }
});
string json = JsonConvert.SerializeObject(l, Formatting.Indented);
StringAssert.AreEqual(@"{
""1"": ""One"",
""2"": ""II"",
""3"": ""3""
}", json);
}
private IDictionary <string, string> allByName()
{
if (this.allByNameMap == null)
{
SortedDictionary <string, string> res = new SortedDictionary <string, string>(new OrderedFieldNamesComparator(this));
IEnumerator <string> iterate = updates.GetEnumerator();
int pos = 1;
while (iterate.MoveNext())
{
res[fields.getName(pos)] = iterate.Current;
pos++;
}
allByNameMap = ImmutableSortedDictionary.CreateRange(res);
}
return(allByNameMap);
}
public async Task Test_Immutable_Sorted_Dictionary_Simple_Number(int len)
{
Dictionary<long, long> dic = new Dictionary<long, long>();
for (long i = 0; i < len; i++)
{
dic.Add(i, i);
}
var a = ImmutableSortedDictionary.CreateRange(dic);
await Test(a,
CheckIEnumerableOfIIDictionary(a,
(a, b) => Assert.Equal(a, b),
(a, b) => Assert.Equal(a, b)));
}
public void ReadImmutableSortedDictionaryOfInt32()
{
ImmutableSortedDictionary <int, int> expected = ImmutableSortedDictionary.CreateRange(new SortedDictionary <int, int>
{
{ 1, 1 },
{ 2, 2 },
{ 3, 3 }
});
const string json = @"{""1"":1,""2"":2,""3"":3}";
JsonSerializerOptions options = new JsonSerializerOptions();
options.SetupExtensions();
ImmutableSortedDictionary <int, int> actual = JsonSerializer.Deserialize <ImmutableSortedDictionary <int, int> >(json, options);
Assert.Equal(expected, actual);
}
private IDictionary <int, string> allByPos()
{
if (this.allByPosMap == null)
{
SortedDictionary <int, string> res = new SortedDictionary <int, string>();
IEnumerator <string> iterate = updates.GetEnumerator();
int pos = 1;
while (iterate.MoveNext())
{
res[pos] = iterate.Current;
pos++;
}
allByPosMap = ImmutableSortedDictionary.CreateRange(res);
}
return(allByPosMap);
}
public void SerializeSortedDictionary()
{
ImmutableSortedDictionary <int, string> data = ImmutableSortedDictionary.CreateRange(new SortedDictionary <int, string>
{
{ 1, "One" },
{ 2, "II" },
{ 3, "3" }
});
string json = JsonSerializer.Serialize(data, s_indentedOption);
Assert.Equal(@"{
""1"": ""One"",
""2"": ""II"",
""3"": ""3""
}", json);
}
public void WriteImmutableSortedDictionaryOfInt32()
{
ImmutableSortedDictionary <int, int> value = ImmutableSortedDictionary.CreateRange(new SortedDictionary <int, int>
{
{ 1, 1 },
{ 2, 2 },
{ 3, 3 }
});
const string expected = @"{""1"":1,""2"":2,""3"":3}";
JsonSerializerOptions options = new JsonSerializerOptions();
options.SetupExtensions();
string actual = JsonSerializer.Serialize(value, value.GetType(), options);
Assert.Equal(expected, actual);
}
public override ImmutableSortedDictionary <decimal, decimal> ReadJson(
JsonReader reader,
Type objectType,
ImmutableSortedDictionary <decimal, decimal> existingValue,
bool hasExistingValue,
JsonSerializer serializer)
{
if (!hasExistingValue)
{
throw new JsonSerializationException("Expected non empty ImmutableSortedDictionary instance");
}
var range = ReadJsonObject(reader).GroupBy(x => x.Key).Select(grouping => KeyValuePair.Create(
grouping.Key,
grouping.Sum(t => t.Value)));
return(ImmutableSortedDictionary.CreateRange(
existingValue.KeyComparer,
range));
}
/// <summary>
/// Initializes a new instance of <see cref="OrderBook"/> with details.
/// </summary>
/// <param name="source">The name of exchange.</param>
/// <param name="asset">The asset pair.</param>
/// <param name="timestamp">The creation time of order book. </param>
/// <param name="asks">The levels of sell orders in order book.</param>
/// <param name="bids">The levels of buy orders in order book.</param>
public OrderBook(
string source,
string asset,
DateTime timestamp,
IEnumerable <OrderBookItem> asks,
IEnumerable <OrderBookItem> bids)
{
Source = source;
Asset = asset;
Timestamp = timestamp;
AskLevels = ImmutableSortedDictionary.CreateRange(
asks.Where(x => x.Price != 0M)
.GroupBy(x => x.Price)
.ToDictionary(x => x.Key, x => x.Sum(i => i.Volume)));
BidLevels = ImmutableSortedDictionary.CreateRange(
DescComparer,
bids.Where(x => x.Price != 0M)
.GroupBy(x => x.Price)
.ToDictionary(x => x.Key, x => x.Sum(i => i.Volume)));
}
public DataModel(string sourceFilePath, DataModelMetadata metaData, IEnumerable <DataModelType> types)
{
this.SourceFilePath = sourceFilePath;
this.MetaData = metaData;
_g4Lookup = ImmutableSortedDictionary.CreateRange(
StringComparer.Ordinal, types.Select(type => Pair.Make(type.G4DeclaredName, type)));
ImmutableSortedDictionary <string, DataModelType> .Builder csTypes = ImmutableSortedDictionary.CreateBuilder <string, DataModelType>(StringComparer.Ordinal);
foreach (DataModelType type in _g4Lookup.Values)
{
string key = type.CSharpName;
if (csTypes.ContainsKey(key))
{
csTypes[key] = null;
}
else
{
csTypes.Add(key, type);
}
}
}
public void Create()
{
IEnumerable <KeyValuePair <string, string> > pairs = new Dictionary <string, string> {
{ "a", "b" }
};
var keyComparer = StringComparer.OrdinalIgnoreCase;
var valueComparer = StringComparer.CurrentCulture;
var dictionary = ImmutableSortedDictionary.Create <string, string>();
Assert.Equal(0, dictionary.Count);
Assert.Same(Comparer <string> .Default, dictionary.KeyComparer);
Assert.Same(EqualityComparer <string> .Default, dictionary.ValueComparer);
dictionary = ImmutableSortedDictionary.Create <string, string>(keyComparer);
Assert.Equal(0, dictionary.Count);
Assert.Same(keyComparer, dictionary.KeyComparer);
Assert.Same(EqualityComparer <string> .Default, dictionary.ValueComparer);
dictionary = ImmutableSortedDictionary.Create(keyComparer, valueComparer);
Assert.Equal(0, dictionary.Count);
Assert.Same(keyComparer, dictionary.KeyComparer);
Assert.Same(valueComparer, dictionary.ValueComparer);
dictionary = ImmutableSortedDictionary.CreateRange(pairs);
Assert.Equal(1, dictionary.Count);
Assert.Same(Comparer <string> .Default, dictionary.KeyComparer);
Assert.Same(EqualityComparer <string> .Default, dictionary.ValueComparer);
dictionary = ImmutableSortedDictionary.CreateRange(keyComparer, pairs);
Assert.Equal(1, dictionary.Count);
Assert.Same(keyComparer, dictionary.KeyComparer);
Assert.Same(EqualityComparer <string> .Default, dictionary.ValueComparer);
dictionary = ImmutableSortedDictionary.CreateRange(keyComparer, valueComparer, pairs);
Assert.Equal(1, dictionary.Count);
Assert.Same(keyComparer, dictionary.KeyComparer);
Assert.Same(valueComparer, dictionary.ValueComparer);
}
public ProjectState(ProjectInfo projectInfo, HostLanguageServices languageServices, SolutionServices solutionServices)
{
Contract.ThrowIfNull(projectInfo);
Contract.ThrowIfNull(languageServices);
Contract.ThrowIfNull(solutionServices);
_languageServices = languageServices;
_solutionServices = solutionServices;
var projectInfoFixed = FixProjectInfo(projectInfo);
_documentIds = projectInfoFixed.Documents.Select(d => d.Id).ToImmutableList();
_additionalDocumentIds = projectInfoFixed.AdditionalDocuments.Select(d => d.Id).ToImmutableList();
var parseOptions = projectInfoFixed.ParseOptions;
var docStates = ImmutableSortedDictionary.CreateRange(DocumentIdComparer.Instance,
projectInfoFixed.Documents.Select(d =>
new KeyValuePair <DocumentId, DocumentState>(d.Id,
CreateDocument(d, parseOptions, languageServices, solutionServices))));
_documentStates = docStates;
var additionalDocStates = ImmutableSortedDictionary.CreateRange(DocumentIdComparer.Instance,
projectInfoFixed.AdditionalDocuments.Select(d =>
new KeyValuePair <DocumentId, TextDocumentState>(d.Id, TextDocumentState.Create(d, solutionServices))));
_additionalDocumentStates = additionalDocStates;
_lazyLatestDocumentVersion = new AsyncLazy <VersionStamp>(c => ComputeLatestDocumentVersionAsync(docStates, additionalDocStates, c), cacheResult: true);
_lazyLatestDocumentTopLevelChangeVersion = new AsyncLazy <VersionStamp>(c => ComputeLatestDocumentTopLevelChangeVersionAsync(docStates, additionalDocStates, c), cacheResult: true);
// ownership of information on document has moved to project state. clear out documentInfo the state is
// holding on. otherwise, these information will be held onto unnecesarily by projectInfo even after
// the info has changed by DocumentState.
// we hold onto the info so that we don't need to duplicate all information info already has in the state
_projectInfo = ClearAllDocumentsFromProjectInfo(projectInfoFixed);
_lazyChecksums = new AsyncLazy <ProjectStateChecksums>(ComputeChecksumsAsync, cacheResult: true);
}
public override ImmutableSortedDictionary <TKey, TValue> ConvertFromSurrogate(ref ImmutableSortedDictionarySurrogate <TKey, TValue> surrogate)
{
if (surrogate.Values is null)
{
return(null);
}
else
{
var result = ImmutableSortedDictionary.CreateRange(surrogate.Values);
if (surrogate.KeyComparer is object && surrogate.ValueComparer is object)
{
result = result.WithComparers(surrogate.KeyComparer, surrogate.ValueComparer);
}
else if (surrogate.KeyComparer is object)
{
result = result.WithComparers(surrogate.KeyComparer);
}
return(result);
}
}
public DefaultConfigurationManager(ConfigurationManagerConfig config)
{
if (config == null)
{
throw new ArgumentNullException("config is null");
}
_config = config;
_sortedSources = ImmutableSortedDictionary.CreateRange(PriorityComparator, _config.Sources);
_sortedSources.Values.ToList().ForEach(s => s.OnChange += OnSourceChange);
_properties = new ConcurrentDictionary <object, IProperty>();
_propertiesLock = new object();
_genericGetPropertyValueMethod = GetType().GetMethods().Where(methodInfo =>
methodInfo.Name == "GetPropertyValue" &&
methodInfo.IsGenericMethod && methodInfo.GetGenericArguments().Length == 2 &&
methodInfo.GetParameters().Count() == 1
).Single();
Logger.Info("Configuration Manager created: {0}", ToString());
}
public override void Initialize()
{
base.Initialize();
MyInt16Array = new short[] { 1 };
MyInt32Array = new int[] { 2 };
MyInt64Array = new long[] { 3 };
MyUInt16Array = new ushort[] { 4 };
MyUInt32Array = new uint[] { 5 };
MyUInt64Array = new ulong[] { 6 };
MyByteArray = new byte[] { 7 };
MySByteArray = new sbyte[] { 8 };
MyCharArray = new char[] { 'a' };
MyStringArray = new string[] { "Hello" };
MyBooleanTrueArray = new bool[] { true };
MyBooleanFalseArray = new bool[] { false };
MySingleArray = new float[] { 1.1f };
MyDoubleArray = new double[] { 2.2d };
MyDecimalArray = new decimal[] { 3.3m };
MyDateTimeArray = new DateTime[] { new DateTime(2019, 1, 30, 12, 1, 2, DateTimeKind.Utc) };
MyEnumArray = new SampleEnum[] { SampleEnum.Two };
MyStringList = new List <string>()
{
"Hello"
};
MyStringIEnumerableT = new string[] { "Hello" };
MyStringIListT = new string[] { "Hello" };
MyStringICollectionT = new string[] { "Hello" };
MyStringIReadOnlyCollectionT = new string[] { "Hello" };
MyStringIReadOnlyListT = new string[] { "Hello" };
MyStringToStringDict = new Dictionary <string, string> {
{ "key", "value" }
};
MyStringToStringIDict = new Dictionary <string, string> {
{ "key", "value" }
};
MyStringToStringIReadOnlyDict = new Dictionary <string, string> {
{ "key", "value" }
};
MyStringToStringImmutableDict = ImmutableDictionary.CreateRange((Dictionary <string, string>)MyStringToStringDict);
MyStringToStringIImmutableDict = ImmutableDictionary.CreateRange((Dictionary <string, string>)MyStringToStringDict);
MyStringToStringImmutableSortedDict = ImmutableSortedDictionary.CreateRange((Dictionary <string, string>)MyStringToStringDict);
MyStringStackT = new Stack <string>(new List <string>()
{
"Hello", "World"
});
MyStringQueueT = new Queue <string>(new List <string>()
{
"Hello", "World"
});
MyStringHashSetT = new HashSet <string>(new List <string>()
{
"Hello"
});
MyStringLinkedListT = new LinkedList <string>(new List <string>()
{
"Hello"
});
MyStringSortedSetT = new SortedSet <string>(new List <string>()
{
"Hello"
});
MyStringIImmutableListT = ImmutableList.CreateRange(new List <string> {
"Hello"
});
MyStringIImmutableStackT = ImmutableStack.CreateRange(new List <string> {
"Hello"
});
MyStringIImmutableQueueT = ImmutableQueue.CreateRange(new List <string> {
"Hello"
});
MyStringIImmutableSetT = ImmutableHashSet.CreateRange(new List <string> {
"Hello"
});
MyStringImmutableHashSetT = ImmutableHashSet.CreateRange(new List <string> {
"Hello"
});
MyStringImmutableListT = ImmutableList.CreateRange(new List <string> {
"Hello"
});
MyStringImmutableStackT = ImmutableStack.CreateRange(new List <string> {
"Hello"
});
MyStringImmutablQueueT = ImmutableQueue.CreateRange(new List <string> {
"Hello"
});
MyStringImmutableSortedSetT = ImmutableSortedSet.CreateRange(new List <string> {
"Hello"
});
}
public void Initialize()
{
MyInt16 = 1;
MyInt32 = 2;
MyInt64 = 3;
MyUInt16 = 4;
MyUInt32 = 5;
MyUInt64 = 6;
MyByte = 7;
MySByte = 8;
MyChar = 'a';
MyString = "Hello";
MyBooleanTrue = true;
MyBooleanFalse = false;
MySingle = 1.1f;
MyDouble = 2.2d;
MyDecimal = 3.3m;
MyDateTime = new DateTime(2019, 1, 30, 12, 1, 2, DateTimeKind.Utc);
MyDateTimeOffset = new DateTimeOffset(2019, 1, 30, 12, 1, 2, new TimeSpan(1, 0, 0));
MyEnum = SampleEnum.Two;
MyInt16Array = new short[] { 1 };
MyInt32Array = new int[] { 2 };
MyInt64Array = new long[] { 3 };
MyUInt16Array = new ushort[] { 4 };
MyUInt32Array = new uint[] { 5 };
MyUInt64Array = new ulong[] { 6 };
MyByteArray = new byte[] { 7 };
MySByteArray = new sbyte[] { 8 };
MyCharArray = new char[] { 'a' };
MyStringArray = new string[] { "Hello" };
MyBooleanTrueArray = new bool[] { true };
MyBooleanFalseArray = new bool[] { false };
MySingleArray = new float[] { 1.1f };
MyDoubleArray = new double[] { 2.2d };
MyDecimalArray = new decimal[] { 3.3m };
MyDateTimeArray = new DateTime[] { new DateTime(2019, 1, 30, 12, 1, 2, DateTimeKind.Utc) };
MyDateTimeOffsetArray = new DateTimeOffset[] { new DateTimeOffset(2019, 1, 30, 12, 1, 2, new TimeSpan(1, 0, 0)) };
MyEnumArray = new SampleEnum[] { SampleEnum.Two };
MyInt16TwoDimensionArray = new int[2][];
MyInt16TwoDimensionArray[0] = new int[] { 10, 11 };
MyInt16TwoDimensionArray[1] = new int[] { 20, 21 };
MyInt16TwoDimensionList = new List <List <int> >();
MyInt16TwoDimensionList.Add(new List <int> {
10, 11
});
MyInt16TwoDimensionList.Add(new List <int> {
20, 21
});
MyInt16ThreeDimensionArray = new int[2][][];
MyInt16ThreeDimensionArray[0] = new int[2][];
MyInt16ThreeDimensionArray[1] = new int[2][];
MyInt16ThreeDimensionArray[0][0] = new int[] { 11, 12 };
MyInt16ThreeDimensionArray[0][1] = new int[] { 13, 14 };
MyInt16ThreeDimensionArray[1][0] = new int[] { 21, 22 };
MyInt16ThreeDimensionArray[1][1] = new int[] { 23, 24 };
MyInt16ThreeDimensionList = new List <List <List <int> > >();
var list1 = new List <List <int> >();
MyInt16ThreeDimensionList.Add(list1);
list1.Add(new List <int> {
11, 12
});
list1.Add(new List <int> {
13, 14
});
var list2 = new List <List <int> >();
MyInt16ThreeDimensionList.Add(list2);
list2.Add(new List <int> {
21, 22
});
list2.Add(new List <int> {
23, 24
});
MyStringList = new List <string>()
{
"Hello"
};
MyStringIEnumerable = new string[] { "Hello" };
MyStringIList = new string[] { "Hello" };
MyStringICollection = new string[] { "Hello" };
MyStringIEnumerableT = new string[] { "Hello" };
MyStringIListT = new string[] { "Hello" };
MyStringICollectionT = new string[] { "Hello" };
MyStringIReadOnlyCollectionT = new string[] { "Hello" };
MyStringIReadOnlyListT = new string[] { "Hello" };
MyStringISetT = new HashSet <string> {
"Hello"
};
MyStringToStringKeyValuePair = new KeyValuePair <string, string>("myKey", "myValue");
MyStringToStringIDict = new Dictionary <string, string> {
{ "key", "value" }
};
MyStringToStringGenericDict = new Dictionary <string, string> {
{ "key", "value" }
};
MyStringToStringGenericIDict = new Dictionary <string, string> {
{ "key", "value" }
};
MyStringToStringGenericIReadOnlyDict = new Dictionary <string, string> {
{ "key", "value" }
};
MyStringToStringImmutableDict = ImmutableDictionary.CreateRange(MyStringToStringGenericDict);
MyStringToStringIImmutableDict = ImmutableDictionary.CreateRange(MyStringToStringGenericDict);
MyStringToStringImmutableSortedDict = ImmutableSortedDictionary.CreateRange(MyStringToStringGenericDict);
MyStringStackT = new Stack <string>(new List <string>()
{
"Hello", "World"
});
MyStringQueueT = new Queue <string>(new List <string>()
{
"Hello", "World"
});
MyStringHashSetT = new HashSet <string>(new List <string>()
{
"Hello"
});
MyStringLinkedListT = new LinkedList <string>(new List <string>()
{
"Hello"
});
MyStringSortedSetT = new SortedSet <string>(new List <string>()
{
"Hello"
});
MyStringIImmutableListT = ImmutableList.CreateRange(new List <string> {
"Hello"
});
MyStringIImmutableStackT = ImmutableStack.CreateRange(new List <string> {
"Hello"
});
MyStringIImmutableQueueT = ImmutableQueue.CreateRange(new List <string> {
"Hello"
});
MyStringIImmutableSetT = ImmutableHashSet.CreateRange(new List <string> {
"Hello"
});
MyStringImmutableHashSetT = ImmutableHashSet.CreateRange(new List <string> {
"Hello"
});
MyStringImmutableListT = ImmutableList.CreateRange(new List <string> {
"Hello"
});
MyStringImmutableStackT = ImmutableStack.CreateRange(new List <string> {
"Hello"
});
MyStringImmutablQueueT = ImmutableQueue.CreateRange(new List <string> {
"Hello"
});
MyStringImmutableSortedSetT = ImmutableSortedSet.CreateRange(new List <string> {
"Hello"
});
MyListOfNullString = new List <string> {
null
};
}
/// <summary>
/// The PointData
/// </summary>
/// <returns></returns>
public PointData ToPointData()
{
return(new PointData(_measurementName, _precision, _time,
ImmutableSortedDictionary.CreateRange(_tags),
ImmutableSortedDictionary.CreateRange(_fields)));
}
internal static T Generate <T>()
{
if (typeof(T) == typeof(LoginViewModel))
{
return((T)(object)CreateLoginViewModel());
}
if (typeof(T) == typeof(Location))
{
return((T)(object)CreateLocation());
}
if (typeof(T) == typeof(IndexViewModel))
{
return((T)(object)CreateIndexViewModel());
}
if (typeof(T) == typeof(MyEventsListerViewModel))
{
return((T)(object)CreateMyEventsListerViewModel());
}
if (typeof(T) == typeof(BinaryData))
{
return((T)(object)CreateBinaryData(1024));
}
if (typeof(T) == typeof(CollectionsOfPrimitives))
{
return((T)(object)CreateCollectionsOfPrimitives(1024)); // 1024 values was copied from CoreFX benchmarks
}
if (typeof(T) == typeof(XmlElement))
{
return((T)(object)CreateXmlElement());
}
if (typeof(T) == typeof(SimpleStructWithProperties))
{
return (T)(object)new SimpleStructWithProperties {
Num = 1, Text = "Foo"
}
}
;
if (typeof(T) == typeof(SimpleListOfInt))
{
return (T)(object)new SimpleListOfInt {
10, 20, 30
}
}
;
if (typeof(T) == typeof(ClassImplementingIXmlSerialiable))
{
return (T)(object)new ClassImplementingIXmlSerialiable {
StringValue = "Hello world"
}
}
;
if (typeof(T) == typeof(Dictionary <string, string>))
{
return((T)(object)ValuesGenerator.ArrayOfUniqueValues <string>(100).ToDictionary(value => value));
}
if (typeof(T) == typeof(ImmutableDictionary <string, string>))
{
return((T)(object)ImmutableDictionary.CreateRange(ValuesGenerator.ArrayOfUniqueValues <string>(100).ToDictionary(value => value)));
}
if (typeof(T) == typeof(ImmutableSortedDictionary <string, string>))
{
return((T)(object)ImmutableSortedDictionary.CreateRange(ValuesGenerator.ArrayOfUniqueValues <string>(100).ToDictionary(value => value)));
}
if (typeof(T) == typeof(HashSet <string>))
{
return((T)(object)new HashSet <string>(ValuesGenerator.ArrayOfUniqueValues <string>(100)));
}
if (typeof(T) == typeof(ArrayList))
{
return((T)(object)new ArrayList(ValuesGenerator.ArrayOfUniqueValues <string>(100)));
}
if (typeof(T) == typeof(Hashtable))
{
return((T)(object)new Hashtable(ValuesGenerator.ArrayOfUniqueValues <string>(100).ToDictionary(value => value)));
}
if (typeof(T) == typeof(LargeStructWithProperties))
{
return((T)(object)CreateLargeStructWithProperties());
}
if (typeof(T) == typeof(DateTimeOffset?))
{
return((T)(object)new DateTimeOffset(2021, 08, 13, 11, 11, 05, TimeSpan.Zero));
}
if (typeof(T) == typeof(int))
{
return((T)(object)42);
}
throw new NotImplementedException();
}
/// <summary>
/// Converts to immutable Dictionary.
/// </summary>
/// <typeparam name="TKey">The type of the t key.</typeparam>
/// <typeparam name="TValue">The type of the t value.</typeparam>
/// <param name="values">The values.</param>
/// <returns>ImmutableSortedDictionary<TKey, TValue>.</returns>
/// <remarks>NEW: Added July 2019</remarks>
public static ImmutableSortedDictionary <TKey, TValue> ToImmutable <TKey, TValue>(this SortedDictionary <TKey, TValue> values)
{
var builder = ImmutableSortedDictionary.CreateRange <TKey, TValue>(values);
return(builder);
}
