Example #1
0
 private static bool CheckDataCorrectness(Dictionary<ulong, TaskStatInfo> data)
 {
     return data.All(
         x => x.Key != null &&
             x.Value.ResourceName != null &&
             x.Value.ProcessInfoCollection.All(y => y.Key != null && y.Value != null && y.Value.All(z => z != null)));
 }
            public List<Dictionary<string, object>> Join (Dictionary<string, object> joinData)
            {
                if (joinData == null || joinData.Count <= 0) {
                    return data;
                }

                return data.Where (x => joinData.All (y => x.ContainsKey (y.Key) && x [y.Key].Equals (y.Value))).ToList ();
            }
        public void WebConfigStateAllowsEnumeratingOverConfigItems()
        {
            // Arrange
            var dictionary = new Dictionary<string, string> { { "a", "b" }, { "c", "d" }, { "x12", "y34" } };
            var stateStorage = GetWebConfigScopeStorage(dictionary);

            // Act and Assert
            Assert.True(dictionary.All(item => item.Value == stateStorage[item.Key] as string));
        }
        public void QuickPulseDataAccumulatorCollectsTelemetryItemsInThreadSafeManner()
        {
            // ARRANGE
            var accumulator = new QuickPulseDataAccumulator();

            // ACT
            var iterationCount = 1000;
            var concurrency = 12;

            Action addItemTask =
                () =>
                Enumerable.Range(0, iterationCount)
                    .ToList()
                    .ForEach(
                        i => accumulator.TelemetryDocuments.Push(new RequestTelemetryDocument()
                                                                     {
                                                                         Name = i.ToString(CultureInfo.InvariantCulture)
                                                                     }));

            var tasks = new List<Action>();
            for (int i = 0; i < concurrency; i++)
            {
                tasks.Add(addItemTask);
            }

            Parallel.Invoke(new ParallelOptions() { MaxDegreeOfParallelism = concurrency }, tasks.ToArray());

            // ASSERT
            var dict = new Dictionary<int, int>();
            foreach (var item in accumulator.TelemetryDocuments)
            {
                int requestNumber = int.Parse(((RequestTelemetryDocument)item).Name, CultureInfo.InvariantCulture);
                if (dict.ContainsKey(requestNumber))
                {
                    dict[requestNumber]++;
                }
                else
                {
                    dict[requestNumber] = 1;
                }
            }

            Assert.AreEqual(iterationCount, dict.Count);
            Assert.IsTrue(dict.All(pair => pair.Value == concurrency));
        }
        private static int VerifyForwardedTypes(
            Dictionary<INamedTypeSymbol, INamedTypeSymbol> equivalentTypesWithDifferingAssemblies,
            Compilation compilation,
            HashSet<INamedTypeSymbol> verifiedKeys,
            bool isSearchSymbolCompilation)
        {
            Contract.ThrowIfNull(compilation);
            Contract.ThrowIfNull(equivalentTypesWithDifferingAssemblies);
            Contract.ThrowIfTrue(!equivalentTypesWithDifferingAssemblies.Any());

            // Must contain equivalents named types residing in different assemblies.
            Contract.ThrowIfFalse(equivalentTypesWithDifferingAssemblies.All(kvp => !SymbolEquivalenceComparer.Instance.Equals(kvp.Key.ContainingAssembly, kvp.Value.ContainingAssembly)));

            // Must contain non-nested named types.
            Contract.ThrowIfFalse(equivalentTypesWithDifferingAssemblies.All(kvp => kvp.Key.ContainingType == null));
            Contract.ThrowIfFalse(equivalentTypesWithDifferingAssemblies.All(kvp => kvp.Value.ContainingType == null));

            var referencedAssemblies = new MultiDictionary<string, IAssemblySymbol>();
            foreach (var assembly in compilation.GetReferencedAssemblySymbols())
            {
                referencedAssemblies.Add(assembly.Name, assembly);
            }

            int verifiedCount = 0;
            foreach (var kvp in equivalentTypesWithDifferingAssemblies)
            {
                if (!verifiedKeys.Contains(kvp.Key))
                {
                    INamedTypeSymbol originalType, expectedForwardedType;
                    if (isSearchSymbolCompilation)
                    {
                        originalType = kvp.Value.OriginalDefinition;
                        expectedForwardedType = kvp.Key.OriginalDefinition;
                    }
                    else
                    {
                        originalType = kvp.Key.OriginalDefinition;
                        expectedForwardedType = kvp.Value.OriginalDefinition;
                    }

                    foreach (var referencedAssembly in referencedAssemblies[originalType.ContainingAssembly.Name])
                    {
                        var fullyQualifiedTypeName = originalType.MetadataName;
                        if (originalType.ContainingNamespace != null)
                        {
                            fullyQualifiedTypeName = originalType.ContainingNamespace.ToDisplayString(SymbolDisplayFormats.SignatureFormat) +
                                "." + fullyQualifiedTypeName;
                        }

                        // Resolve forwarded type and verify that the types from different assembly are indeed equivalent.
                        var forwardedType = referencedAssembly.ResolveForwardedType(fullyQualifiedTypeName);
                        if (forwardedType == expectedForwardedType)
                        {
                            verifiedKeys.Add(kvp.Key);
                            verifiedCount++;
                        }
                    }
                }
            }

            return verifiedCount;
        }
Example #6
0
 private static bool CheckDataCorrectness(Dictionary<string, Dictionary<string, List<NodeInfo>>> data)
 {
     return data.All(x => x.Key != null && x.Value != null && x.Value.All(y => y.Key != null && y.Value != null && y.Value.All(z => z != null)));
 }