Esempio n. 1
0
 public void RecordCalculatedResults(string k1, string k2, decimal pr)
 {
     if (calculatedResults.ContainsKey(k1))
     {
         var innerDictionary = calculatedResults[k1];
         if (innerDictionary.ContainsKey(k2))
         {
             throw new NotSupportedException("This pattern expects only one entry per k1k2 pair");
         }
         else
         {
             //ToDo: Better understanding/handling of exceptions here
             try
             {
                 innerDictionary.Add(k2, pr);
             }
             catch { new Exception($"adding {pr} to {k1}'s innerDictionary keyed by {k2} failed"); }
         }
     }
     else
     {
         var innerDictionary = new ConcurrentObservableDictionary <string, decimal>();
         try { innerDictionary.Add(k2, pr); } catch { new Exception($"adding {pr} to the new innerDictionary keyed by {k2} failed"); }
         try { calculatedResults.Add(k1, innerDictionary); } catch { new Exception($"adding the new innerDictionary to calculatedResults keyed by {k1} failed"); }
     };
 }
        public void Test_ConcurrentObservableCollection_RemoveRange_ByItems_IEnumerable()
        {
            var initial    = Enumerable.Range(0, 100).Select(x => new KeyValuePair <int, int>(x, x));
            var toRemove   = Enumerable.Range(1, 40).Select(x => x * 2);
            var collection = new ConcurrentObservableDictionary <int, int>();

            collection.AddRange(initial);
            Assert.AreEqual(100, collection.Count);

            // Record all the collection changed events
            List <(object, NotifyCollectionChangedEventArgs)> returnedList = new List <(object, NotifyCollectionChangedEventArgs)>();

            collection.CollectionChanged += (s, e) => returnedList.Add((s, e));

            collection.RemoveRange(toRemove);

            // Check just one collection changed event was fired
            Assert.AreEqual(1, returnedList.Count);
            (var returnedObject, var returnedArgs) = returnedList[0];

            Assert.IsNotNull(returnedObject);
            Assert.IsNotNull(returnedArgs);

            Assert.AreEqual(returnedObject, collection);
            Assert.AreEqual(NotifyCollectionChangedAction.Remove, returnedArgs.Action);
            Assert.AreEqual(-1, returnedArgs.OldStartingIndex);
            Assert.IsNull(returnedArgs.NewItems);
            Assert.IsNotNull(returnedArgs.OldItems);
            Assert.AreEqual(toRemove.Count(), returnedArgs.OldItems.Count);
            Assert.IsTrue(CollectionsAreEqual(toRemove, returnedArgs.OldItems));
        }
        public void Test_ConcurrentObservableDictionary_Clear()
        {
            var initial    = Enumerable.Range(0, 100).Select(x => new KeyValuePair <int, int>(x, x));
            var collection = new ConcurrentObservableDictionary <int, int>();

            collection.AddRange(initial);
            Assert.AreEqual(100, collection.Count);

            // Record all the collection changed events
            List <(object, NotifyCollectionChangedEventArgs)> returnedList = new List <(object, NotifyCollectionChangedEventArgs)>();

            collection.CollectionChanged += (s, e) => returnedList.Add((s, e));

            collection.Clear();

            // Check just one collection changed event was fired
            Assert.AreEqual(1, returnedList.Count);
            (var returnedObject, var returnedArgs) = returnedList[0];

            Assert.AreEqual(0, collection.Count);

            Assert.AreEqual(returnedObject, collection);
            Assert.AreEqual(NotifyCollectionChangedAction.Remove, returnedArgs.Action);

            Assert.IsNull(returnedArgs.NewItems);

            Assert.IsNotNull(returnedArgs.OldItems);
            Assert.AreEqual(initial.Count(), returnedArgs.OldItems.Count);
            Assert.IsTrue(initial.Zip(returnedArgs.OldItems.OfType <KeyValuePair <int, int> >(), (a, b) => a.Key == b.Key && a.Value == b.Value).All(c => c));
        }
Esempio n. 4
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 public ComputerHardware(MainBoard mainBoard, IList <CPUMaker> cPUs, ConcurrentObservableDictionary <Id <DiskDriveInfoEx>, DiskDriveInfoEx> diskDriveInfoExCOD, TimeBlock moment)
 {
     MainBoard          = mainBoard ?? throw new ArgumentNullException(nameof(mainBoard));
     CPUs               = cPUs ?? throw new ArgumentNullException(nameof(cPUs));
     DiskDriveInfoExCOD = diskDriveInfoExCOD ?? throw new ArgumentNullException(nameof(diskDriveInfoExCOD));
     Moment             = moment ?? throw new ArgumentNullException(nameof(moment));
 }
        public void TestRemovePartialEvents()
        {
            var data = new ConcurrentObservableDictionary <string, double>();
            var obs  = new SimpleObserver();

            data.AddPartialObserver(obs, "test", "test2", "test3");

            data.AddOrUpdate("test", 1.0);
            Assert.AreEqual(1.0, obs.LastValue, "Error in test key");

            Assert.IsTrue(data.RemovePartialObserver(obs, "test").All(
                              pair => pair.Key == "test" && pair.Value.Count == 1 && pair.Value.Contains(obs)), "remove <obs, test>");

            data.AddOrUpdate("test", 10.0);
            Assert.AreEqual(1.0, obs.LastValue, "Error in test key after remove <obs, test>");

            Assert.IsTrue(data.RemovePartialObserver("test3").All(pair => pair.Key == "test3"), "remove test3 key");

            data.AddOrUpdate("test3", 30.0);
            Assert.AreEqual(1.0, obs.LastValue, "Error in test3 key after remove test3 key");

            data.AddOrUpdate("test2", 2.0);
            Assert.AreEqual(2.0, obs.LastValue, "Error in test2 key");

            Assert.IsTrue(data.RemovePartialObserver(obs).All(
                              pair => pair.Value.Count == 1 && pair.Value.Contains(obs)), "remove obs");

            data.AddOrUpdate("test2", 20.0);
            Assert.AreEqual(2.0, obs.LastValue, "Error in test2 key after remove obs");
        }
Esempio n. 6
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        // Access the Logging extensions registered in the DI container
        //[Inject]
        //public ILogger<BaseServicesCodeBehind> Log { get; set; }

        //[Inject]
        //protected SessionStorage sessionStorage;

        //[Inject]
        //protected LocalStorage localStorage;

        #endregion

        #region Page Initialization Handler
        protected override async Task OnInitAsync()
        {
            //Log.LogDebug($"Starting OnInitAsync");
            ////Log.LogDebug($"Initializing IServiceClient");
            ////IServiceClient client = new JsonHttpClient("http://localhost:21100");
            ////Log.LogDebug($"client is null: {client == null}");

            /* // from teh stateless statemachine compiler project
             * const string on = "On";
             * const string off = "Off";
             * const char space = ' ';
             * var onOffSwitch = new StateMachine<string, char>(off);
             * onOffSwitch.Configure(off).Permit(space, on);
             * onOffSwitch.Configure(on).Permit(space, off);
             */
            var initializationRequest = new InitializationRequest(new InitializationRequestPayload(new InitializationData("BaseVersionXX", "MachineIDXX", "userIDxx")));

            //Log.LogDebug($"Calling PostJsonAsync<InitializationResponse> with InitializationRequest = {InitializationRequest}");
            InitializationResponse = await HttpClient.PostJsonAsync <InitializationResponse>("/BaseServicesInitialization",
                                                                                             initializationRequest);

            //Log.LogDebug($"Returned from PostJsonAsync<InitializationResponse>, InitializationResponse = {InitializationResponse}");
            ConfigurationData   = InitializationResponse.InitializationResponsePayload.ConfigurationData;
            UserData            = InitializationResponse.InitializationResponsePayload.UserData;
            PartitionInfoExs    = new PartitionInfoExs();
            LongRunningTasksCOD = new ConcurrentObservableDictionary <Id <LongRunningTaskInfo>, LongRunningTaskStatus>();
            //Log.LogDebug($"Leaving OnInitAsync");
        }
        public void AddRangeTest()
        {
            // There was an issue with ConcurrentObservableDictionary.AddMany throwing an
            // exception when passed an IEnumerable.

            IEnumerable <KeyValuePair <string, string> > GetIEnumerable()
            {
                for (int i = 0; i < 10; ++i)
                {
                    yield return(new KeyValuePair <string, string>(i.ToString(), i.ToString()));
                }
            }

            var itemsToAdd  = GetIEnumerable();
            var dictionary1 = new ConcurrentObservableDictionary <string, string>();

            dictionary1.AddRange(itemsToAdd);

            Assert.IsTrue(dictionary1.Count == itemsToAdd.Count(), "Right number of items");

            var sourceDictionary = itemsToAdd.ToDictionary(a => a.Key, b => b.Value);
            var dictionary2      = new ConcurrentObservableDictionary <string, string>();

            dictionary2.AddRange(sourceDictionary);

            Assert.IsTrue(dictionary2.Count == sourceDictionary.Count, "Right number of items");
        }
        internal void MinerGPUSerializeToJSON(string _testdatainput)
        {
            var hrpc = new ConcurrentObservableDictionary <Coin, HashRate>()
            {
                { Coin.ETH, new HashRate(20.0,
                                         new TimeSpan(0,
                                                      0,
                                                      1)) }
            };
            VideoCardSignil vcdc = VideoCardsKnown.TuningParameters.Keys.Where(x => (x.VideoCardMaker ==
                                                                                     VideoCardMaker.ASUS &&
                                                                                     x.GPUMaker ==
                                                                                     GPUMaker.NVIDEA))
                                   .Single();
            MinerGPU minerGPU = new MinerGPU(vcdc,
                                             "10DE 17C8 - 3842",
                                             "100.00001.02320.00",
                                             false,
                                             1140,
                                             1753,
                                             11.13,
                                             0.8,
                                             hrpc);
            var str = JsonConvert.SerializeObject(minerGPU);

            str.Should()
            .NotBeNull();
            str.Should()
            .Be(_testdatainput);
        }
Esempio n. 9
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        public void RecordR(string k1, string k2, decimal pr)
        {
            if (ResultsCOD.ContainsKey(k1))
            {
                var innerCOD = ResultsCOD[k1];
                if (innerCOD.ContainsKey(k2))
                {
                    throw new NotSupportedException("This pattern expects only one entry per k1k2 pair");
                }
                else
                {
                    //ToDo: Better understanding/handling of exceptions here
                    try { innerCOD.Add(k2, pr); } catch { new Exception($"adding {pr} to {k1}'s innerDictionary keyed by {k2} failed"); }
                }
            }
            else
            {
                var innerCOD = new ConcurrentObservableDictionary <string, decimal>();
                if (this.onResultsNestedCODCollectionChanged != null)
                {
                    innerCOD.CollectionChanged += this.onResultsNestedCODCollectionChanged;
                }

                if (this.onResultsNestedCODPropertyChanged != null)
                {
                    innerCOD.PropertyChanged += this.onResultsNestedCODPropertyChanged;
                }

                try { innerCOD.Add(k2, pr); } catch { new Exception($"adding {pr} to the new innerDictionary keyed by {k2} failed"); }
                try { ResultsCOD.Add(k1, innerCOD); } catch { new Exception($"adding the new innerDictionary to cODR keyed by {k1} failed"); }
            };
        }
Esempio n. 10
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 public WithObservableConcurrentDictionaryAndEventHandlers(NotifyCollectionChangedEventHandler OnCollectionChanged, NotifyCollectionChangedEventHandler OnNestedCollectionChanged)
 {
     calculatedResults                    = new ConcurrentObservableDictionary <string, ConcurrentObservableDictionary <string, decimal> >();
     this.onCollectionChanged             = OnCollectionChanged;
     this.onNestedCollectionChanged       = OnNestedCollectionChanged;
     calculatedResults.CollectionChanged += onCollectionChanged;
 }
Esempio n. 11
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 // constructor with event handlers
 public RealEstateServicesData(IAppHost appHost, ConcurrentObservableDictionary <string, decimal> pluginRootCOD, NotifyCollectionChangedEventHandler onPluginRootCODCollectionChanged, PropertyChangedEventHandler onPluginRootCODPropertyChanged)
 {
     cacheClient   = appHost.GetContainer().Resolve <ICacheClient>();
     PluginRootCOD = pluginRootCOD;
     this.onPluginRootCODCollectionChanged = onPluginRootCODCollectionChanged;
     this.onPluginRootCODPropertyChanged   = onPluginRootCODPropertyChanged;
     pluginRootCOD.CollectionChanged      += this.onPluginRootCODCollectionChanged;
     pluginRootCOD.PropertyChanged        += this.onPluginRootCODPropertyChanged;
 }
Esempio n. 12
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        //public ConcurrentObservableDictionary<Id<LongRunningTaskInfo>, FileInfoExs> FileInfoExCOD { get; set; }
        //public ConcurrentObservableDictionary<Id<LongRunningTaskInfo>, (Id<DirectoryInfoEx>, Id<FileInfoEx>)> EdgeFileInfoExDirectoryInfoExCOD { get; set; }
        //public ConcurrentObservableDictionary<Id<LongRunningTaskInfo>, (Id<DirectoryInfoEx>, Id<DirectoryInfoEx>)> EdgeDirectoryInfoExDirectoryInfoExCOD { get; set; }

        void ConstructFileSystemAnalysisData()
        {
            LookupFileSystemAnalysisResultsCOD = new ConcurrentObservableDictionary <Id <LongRunningTaskInfo>, LongRunningTaskInfo>();
            AnalyzeFileSystemResultsCOD        = new ConcurrentObservableDictionary <Id <LongRunningTaskInfo>, IAnalyzeFileSystemResult>();
            AnalyzeFileSystemProgressCOD       = new ConcurrentObservableDictionary <Id <LongRunningTaskInfo>, IAnalyzeFileSystemProgress>();
            //DirectoryInfoExCOD =new ConcurrentObservableDictionary<Id<LongRunningTaskInfo>, DirectoryInfoExs>();
            //FileInfoExCOD=new ConcurrentObservableDictionary<Id<LongRunningTaskInfo>, FileInfoExs>();
            //EdgeFileInfoExDirectoryInfoExCOD=new ConcurrentObservableDictionary<Id<LongRunningTaskInfo>, (Id<DirectoryInfoEx>, Id<FileInfoEx>)>();
            //EdgeDirectoryInfoExDirectoryInfoExCOD=new ConcurrentObservableDictionary<Id<LongRunningTaskInfo>, (Id<DirectoryInfoEx>, Id<DirectoryInfoEx>)>();
        }
        public void TestEvents()
        {
            var data    = new ConcurrentObservableDictionary <string, double>();
            var updated = false;

            data.CollectionChanged += (s, e) => { updated = true; };

            data.AddOrUpdate("test", 1.0);

            Assert.IsTrue(updated);
        }
Esempio n. 14
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 /// <summary>
 /// Constructeur initialisant les listes de noeuds et clients et générant les TaskExecutor infrastructure
 /// </summary>
 /// <param name="name">Nom Orchestrateur</param>
 /// <param name="address">Adresse IP de l'orchestrateur</param>
 /// <param name="port">Port d'écoute</param>
 protected Orchestrator(string name, string address, int port) : base(name, address, port)
 {
     Logger            = new Logger(true);
     unidentifiedNodes = new List <Tuple <int, Node> >();
     Nodes             = new ConcurrentObservableDictionary <string, Node>();
     Clients           = new ConcurrentDictionary <string, Node>();
     TaskDistrib       = new ConcurrentDictionary <int, Tuple <ConcurrentBag <int>, bool> >();
     WorkerFactory.AddWorker(IdentMethod, new TaskExecutor(this, IdentNode, null, null));
     WorkerFactory.AddWorker(GetCpuMethod, new TaskExecutor(this, ProcessCpuStateOrder, null, null));
     WorkerFactory.AddWorker(TaskStatusMethod, new TaskExecutor(this, RefreshTaskState, null, null));
 }
        public void TestAddPartialEvents()
        {
            var data = new ConcurrentObservableDictionary <string, double>();
            var obs  = new SimpleObserver();

            data.AddPartialObserver(obs, "test", "test2");

            data.AddOrUpdate("test", 1.0);
            Assert.AreEqual(1.0, obs.LastValue, "Error in test key");

            data.AddOrUpdate("test2", 10.0);
            Assert.AreEqual(10.0, obs.LastValue, "Error in test2 key");
        }
        public void TestAddPartialEventsByAction()
        {
            var data = new ConcurrentObservableDictionary <string, double>();
            var ret  = 0.0;

            data.AddPartialObserver(args => ret = args.NewValue, "test", "test2");

            data.AddOrUpdate("test", 1.0);
            Assert.AreEqual(1.0, ret, "Error in test key");

            data.AddOrUpdate("test2", 10.0);
            Assert.AreEqual(10.0, ret, "Error in test2 key");
        }
 public MinerStatusDetailsAbstract(ConcurrentObservableDictionary <int, Ratio> perGPUFanPct, ConcurrentObservableDictionary <int, ConcurrentObservableDictionary <Coin, double> > perGPUPerCoinHashRate, ConcurrentObservableDictionary <int, Power> perGPUPowerConsumption, ConcurrentObservableDictionary <int, Temperature> perGPUTemperature, string runningTime, ConcurrentObservableDictionary <Coin, double> totalPerCoinHashRate, ConcurrentObservableDictionary <Coin, int> totalPerCoinInvalidShares, ConcurrentObservableDictionary <Coin, int> totalPerCoinPoolSwitches, ConcurrentObservableDictionary <Coin, int> totalPerCoinRejectedShares, ConcurrentObservableDictionary <Coin, int> totalPerCoinShares, string version)
 {
     PerGPUFanPct               = perGPUFanPct ?? throw new ArgumentNullException(nameof(perGPUFanPct));
     PerGPUPerCoinHashRate      = perGPUPerCoinHashRate ?? throw new ArgumentNullException(nameof(perGPUPerCoinHashRate));
     PerGPUPowerConsumption     = perGPUPowerConsumption ?? throw new ArgumentNullException(nameof(perGPUPowerConsumption));
     PerGPUTemperature          = perGPUTemperature ?? throw new ArgumentNullException(nameof(perGPUTemperature));
     RunningTime                = runningTime ?? throw new ArgumentNullException(nameof(runningTime));
     TotalPerCoinHashRate       = totalPerCoinHashRate ?? throw new ArgumentNullException(nameof(totalPerCoinHashRate));
     TotalPerCoinInvalidShares  = totalPerCoinInvalidShares ?? throw new ArgumentNullException(nameof(totalPerCoinInvalidShares));
     TotalPerCoinPoolSwitches   = totalPerCoinPoolSwitches ?? throw new ArgumentNullException(nameof(totalPerCoinPoolSwitches));
     TotalPerCoinRejectedShares = totalPerCoinRejectedShares ?? throw new ArgumentNullException(nameof(totalPerCoinRejectedShares));
     TotalPerCoinShares         = totalPerCoinShares ?? throw new ArgumentNullException(nameof(totalPerCoinShares));
     Version = version ?? throw new ArgumentNullException(nameof(version));
 }
Esempio n. 18
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 // constructor with event handlers
 public DiskAnalysisServicesData(IAppHost appHost, ConcurrentObservableDictionary <string, decimal> pluginRootCOD, NotifyCollectionChangedEventHandler onPluginRootCODCollectionChanged, PropertyChangedEventHandler onPluginRootCODPropertyChanged)
 {
     cacheClient      = appHost.GetContainer().Resolve <ICacheClient>();
     BaseServicesData = appHost.GetContainer().Resolve <BaseServicesData>();
     PluginRootCOD    = pluginRootCOD;
     this.onPluginRootCODCollectionChanged = onPluginRootCODCollectionChanged;
     this.onPluginRootCODPropertyChanged   = onPluginRootCODPropertyChanged;
     pluginRootCOD.CollectionChanged      += this.onPluginRootCODCollectionChanged;
     pluginRootCOD.PropertyChanged        += this.onPluginRootCODPropertyChanged;
     // ToDo: Get the Configuration data into the COD, and populate it from "plugin configuration data load"
     ConstructConfigurationData();
     ConstructUserData();
     ConstructDiskDriveAnalysisData();
     ConstructFileSystemAnalysisData();
 }
        private void Button_Click(object sender, RoutedEventArgs e)
        {
            Messages.Add("Testing BinaryFormatter...");
            var list             = new ConcurrentObservableCollection <string>();
            var dictionary       = new ConcurrentObservableDictionary <string, string>();
            var sortedDictionary = new ConcurrentObservableSortedDictionary <string, string>();

            InitializeList(list, 20);
            TestSerializingObject(list);
            InitializeDictionary(dictionary, 20);
            TestSerializingObject(dictionary);
            InitializeDictionary(sortedDictionary, 20);
            TestSerializingObject(sortedDictionary);
            Messages.Add("Done");
        }
        public void TestClearCache()
        {
            var data = new ConcurrentObservableDictionary <string, double>();
            var obs  = new SimpleObserver();

            data.AddPartialObserver(obs, "test", "test2", "test3");

            data.AddOrUpdate("test", 2.0);
            data.AddOrUpdate("test2", 12.0);
            data.AddOrUpdate("test3", 32.0);
            Assert.IsFalse(data.IsEmpty, "data is empty");

            data.Clear();
            Assert.IsTrue(data.IsEmpty, "data is not empty");
        }
Esempio n. 21
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        public void ConcurrentObservableDictionarySerializationTest()
        {
            var serializer = new BinaryFormatter();
            var stream     = new MemoryStream();
            var collection = new ConcurrentObservableDictionary <string, int>();

            for (int i = 0; i < 10; i++)
            {
                collection.Add("TestItem" + (i + 1).ToString(), i);
            }
            serializer.Serialize(stream, collection);
            stream.Position = 0;
            collection      = serializer.Deserialize(stream) as ConcurrentObservableDictionary <string, int>;
            for (int i = 0; i < 10; i++)
            {
                Assert.AreEqual(i, collection["TestItem" + (i + 1).ToString()]);
            }
        }
Esempio n. 22
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                public TransientBuffer(KeySignature <string> sig, DynamicBuffers parent) : base(parent._parent._calculateAndStoreFromInputAndAsyncTermsOptions)
                {
                    Log.Trace("Constructor Starting");
                    this._parent = parent;
                    Log.Trace($"ElementSet: {sig.Longest().ToString()}");

                    Log.Trace("Creating _buffer");
                    _buffer = new BufferBlock <IInternalMessage <string> >();

                    Log.Trace("Registering _buffer");
                    RegisterChild(_buffer);
                    // critical section
                    // iterate each individual element of the sig, and get those that are not already present in the COD FetchingIndividualElementsOfTerm1
                    foreach (var element in sig.IndividualElements)
                    {
                        if (!parent._parent._calculateAndStoreFromInputAndAsyncTermsObservableData.FetchingIndividualElementsOfTerm1.ContainsKey(element))
                        {
                            // For each element that is not already being fetched, start the async task to fetch it
                            Log.Trace($"Fetching AsyncWebGet for {element} and storing the task in FetchingIndividualElementsOfTerm1 indexed by {element}");
                            // call the async function that fetches the information for each individual element in the elementSet
                            // record the individual element and it's corresponding task in the FetchingIndividualElementsOfTerm1
                            parent._parent._calculateAndStoreFromInputAndAsyncTermsObservableData.FetchingIndividualElementsOfTerm1[element] = parent._parent._webGet.AsyncWebGet <double>(element);
                        }
                    }
                    // Record into FetchingElementSetsOfTerm1 the sig.Longest as key, and for the data,
                    // create a COD whose keys are the keys of sig.IndividualElements in the FetchingElementSetsOfTerm1
                    Log.Trace("Creating new concurrent dictionary");
                    var x = new ConcurrentObservableDictionary <string, byte>();

                    foreach (var element in sig.IndividualElements)
                    {
                        Log.Trace($"Creating an entry for {element}");
                        x[element] = default;
                    }
                    Log.Trace($"Creating an entry for FetchingElementSetsOfTerm1. Key is {sig.Longest()} data is x");
                    parent._parent._calculateAndStoreFromInputAndAsyncTermsObservableData.FetchingElementSetsOfTerm1[sig.Longest()] = x;
                    // If the asyncFetchCheckTimer is not enabled, enable it now.
                    if (!parent._parent.asyncFetchCheckTimer.Enabled)
                    {
                        parent._parent.asyncFetchCheckTimer.Enabled = true;
                    }

                    Log.Trace("Constructor Finished");
                }
        public ClaymoreMinerStatusDetails(string str)
        {
            string    version;
            TimeBlock runningTime;
            ConcurrentObservableDictionary <Coin, double> totalPerCoinHashRate       = new ConcurrentObservableDictionary <Coin, double>();
            ConcurrentObservableDictionary <Coin, int>    totalPerCoinShares         = new ConcurrentObservableDictionary <Coin, int>();
            ConcurrentObservableDictionary <Coin, int>    totalPerCoinRejectedShares = new ConcurrentObservableDictionary <Coin, int>();
            ConcurrentObservableDictionary <Coin, int>    totalPerCoinInvalidShares  = new ConcurrentObservableDictionary <Coin, int>();
            ConcurrentObservableDictionary <Coin, int>    totalPerCoinPoolSwitches   = new ConcurrentObservableDictionary <Coin, int>();
            ConcurrentObservableDictionary <int, ConcurrentObservableDictionary <Coin, double> > perGPUPerCoinHashRate = new ConcurrentObservableDictionary <int, ConcurrentObservableDictionary <Coin, double> >();
            ConcurrentObservableDictionary <int, Temperature> perGPUTemperature      = new ConcurrentObservableDictionary <int, Temperature>();
            ConcurrentObservableDictionary <int, Ratio>       perGPUFanPct           = new ConcurrentObservableDictionary <int, Ratio>();
            ConcurrentObservableDictionary <int, Power>       perGPUPowerConsumption = new ConcurrentObservableDictionary <int, Power>();

            string          rEClaymoreMinerStatusResultDetails = "^\"(?<Version>.*?),\\s+\"(?<RunningTime>.*?)\",\\s+\"(?<TotalETHHashRate>.*?);(?<TotalETHShares>.*?);(?<TotalETHRejectedShares>.*?)\",\\s+\"(?<PerGPUETHHashRate>.*?)\",\\s+\"(?<TotalSecondaryHashRate>.*?);(?<TotalSecondaryShares>.*?);(?<TotalSecondaryRejectedShares>.*?)\",\\s+\"(?<PerGPUSecondaryHashRate>.*?)\",\\s+\"(?<PerGPUTempFanPair>.*?)\",\\s+\"(?<CurrentMiningPools>.*?)\",\\s+\"(?<TotalETHInvalidShares>.*?);(?<TotalETHPoolSwitches>.*?);(?<TotalSecondaryInvalidShares>.*?);(?<TotalSecondaryPoolSwitches>.*?)\"";
            Regex           RE1     = new Regex(rEClaymoreMinerStatusResultDetails, RegexOptions.IgnoreCase);
            MatchCollection matches = RE1.Matches(str);

            if (matches.Count == 0)
            {
                throw new ArgumentException($"Unable to match as a status response detailed: {str}");
            }

            foreach (Match match in matches)
            {
                GroupCollection groups = match.Groups;
                version = groups["Version"].Value ??
                          throw new ArgumentNullException(nameof(version));
                if (groups["RunningTime"].Value is null)
                {
                    throw new ArgumentNullException(nameof(runningTime));
                }
                runningTime = new TimeBlock(DateTime.Parse(groups["RunningTime"].Value));

                /*
                 *
                 * // Version = new Regex(@"(\d|\.)+", RegexOptions.IgnoreCase).Matches;
                 * // Coin = groups["Version"].Value ?? throw new ArgumentNullException(nameof(Coin));
                 * RunningTime = groups["RunningTime"].Value ?? throw new ArgumentNullException(nameof(RunningTime));
                 */
            }
        }
Esempio n. 24
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        public void ConcurrentObservableDictionaryTest()
        {
            ConcurrentObservableDictionary <int, string> dict = new ConcurrentObservableDictionary <int, string>();
            var times = 0;

            dict.CollectionChanged += delegate
            {
                times++;
            };

            dict.Add(1, "foo");
            dict.Add(2, "moo");
            dict.Add(3, "boo");

            dict.AddOrReplace(1, "boo");
            dict.Remove(dict.First(x => x.Value == "moo"));

            Assert.True(dict.Values.All(x => x == "boo"));
            Assert.Equal(5, times);
        }
        public void RigConfigBuilderToJSON()
        {
            ConcurrentObservableDictionary <(MinerSWE minerSWE, string version, Coin[] coins), MinerSWAbstract> minerSWs = new ConcurrentObservableDictionary <(MinerSWE minerSWE, string version, Coin[] coins), MinerSWAbstract>();
            ConcurrentObservableDictionary <int, MinerGPU> minerGPUs = new ConcurrentObservableDictionary <int, MinerGPU>();
            PowerConsumption pc = new PowerConsumption(new TimeSpan(0, 1, 0), new Power(1, UnitsNet.Units.PowerUnit.Watt));
            TempAndFan       tf = new TempAndFan()
            {
                Temp = new Temperature(50, UnitsNet.Units.TemperatureUnit.DegreeFahrenheit), FanPct = new Ratio(95.5, UnitsNet.Units.RatioUnit.Percent)
            };

            RigConfig rc = RigConfigBuilder.CreateNew()
                           .AddMinerSWs(minerSWs)
                           .AddMinerGPUs(minerGPUs)
                           .AddPowerConsumption(pc)
                           .AddTempAndFan(tf)
                           .Build();
            var str = JsonConvert.SerializeObject(rc);

            str.Should()
            .NotBeNull();
        }
        public void Test_ConcurrentObservableDictionary_AddRange_Dictionary()
        {
            var toAdd      = Enumerable.Range(0, 100).Select(x => new KeyValuePair <int, int>(x, x)).ToDictionary(x => x.Key, x => x.Value);
            var collection = new ConcurrentObservableDictionary <int, int>();

            // Record all the collection changed events
            List <(object, NotifyCollectionChangedEventArgs)> returnedList = new List <(object, NotifyCollectionChangedEventArgs)>();

            collection.CollectionChanged += (s, e) => returnedList.Add((s, e));

            collection.AddRange(toAdd);

            // Check just one collection changed event was fired
            Assert.AreEqual(1, returnedList.Count);
            (var returnedObject, var returnedArgs) = returnedList[0];

            Assert.AreEqual(returnedObject, collection);
            Assert.AreEqual(returnedArgs.Action, NotifyCollectionChangedAction.Add);
            Assert.IsNotNull(returnedArgs.NewItems);
            Assert.IsNull(returnedArgs.OldItems);
            Assert.AreEqual(toAdd.Count(), returnedArgs.NewItems.Count);
            Assert.IsTrue(CollectionsAreEqual(toAdd, returnedArgs.NewItems));
        }
Esempio n. 27
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        public void ConcurrentObservableDictionaryTest()
        {
            ConcurrentObservableDictionary <int, string> dict = new ConcurrentObservableDictionary <int, string>();

            _times = 0;
            dict.CollectionChanged += Dict_CollectionChanged;

            try
            {
                dict.Add(1, "foo");
                dict.Add(2, "moo");
                dict.Add(3, "boo");

                dict.AddOrReplace(1, "boo");
                dict.Remove(dict.First(x => x.Value == "moo"));

                Assert.DoesNotContain(dict.Values, x => x != "boo");
                Assert.Equal(5, _times);
            }
            finally
            {
                dict.CollectionChanged -= Dict_CollectionChanged;
            }
        }
        public MinerSWAbstract(string processName, string processPath, string version, string processStartPath, bool hasConfigurationSettings, ConcurrentObservableDictionary <string, string> configurationSettings, string configFilePath, bool hasSTDOut, bool hasERROut, bool hasAPI, string aPIDiscoveryURL, bool hasLogFiles, string logFileFolder, string logFileFnPattern, Coin[] coinsMined, string[][] pools) : base(
                new ComputerSoftwareProgramSignil(processName, processPath, processStartPath, version, hasSTDOut, hasERROut, hasLogFiles, logFileFolder, logFileFnPattern, hasAPI, aPIDiscoveryURL, hasConfigurationSettings, configFilePath),
                null

                )
        {
            CoinsMined = coinsMined ?? throw new ArgumentNullException(nameof(coinsMined));
            Pools      = pools ?? throw new ArgumentNullException(nameof(pools));
        }
Esempio n. 29
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 public WithObservableConcurrentDictionary()
 {
     calculatedResults = new ConcurrentObservableDictionary <string, ConcurrentObservableDictionary <string, decimal> >();
 }
Esempio n. 30
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    public void ConcurrentObservableDictionarySerializationTest()
    {
        // ARRANGE
        // =======

        // A random generator (we'll test random values to avoid hard-codings)
        var r = new Random();

        // The data contract serializer we'll use to serialize and deserialize
        var dcs = new DataContractSerializer(typeof(ConcurrentObservableDictionary <int, DummyDataContract>));

        // The dummy data
        var ddc1 = new DummyDataContract {
            RandomValue = r.Next()
        };
        var ddc2 = new DummyDataContract {
            RandomValue = r.Next()
        };
        var ddc3 = new DummyDataContract {
            RandomValue = r.Next()
        };
        var ddc4 = new DummyDataContract {
            RandomValue = r.Next()
        };

        // The original observable list
        using (var l1 = new ConcurrentObservableDictionary <int, DummyDataContract>
        {
            [ddc1.RandomValue] = ddc1,
            [ddc2.RandomValue] = ddc2,
            [ddc3.RandomValue] = ddc3,
            [ddc4.RandomValue] = ddc4,
        })
        {
            // The deserialized list
            ConcurrentObservableDictionary <int, DummyDataContract> l2;

            // The serialization content
            string content;

            // ACT
            // ===
            using (var ms = new MemoryStream())
            {
                dcs.WriteObject(
                    ms,
                    l1);

                _ = ms.Seek(
                    0,
                    SeekOrigin.Begin);

                using (var textReader = new StreamReader(
                           ms,
                           Encoding.UTF8,
                           false,
                           32768,
                           true))
                {
                    content = textReader.ReadToEnd();
                }

                _ = ms.Seek(
                    0,
                    SeekOrigin.Begin);

                l2 = dcs.ReadObject(ms) as ConcurrentObservableDictionary <int, DummyDataContract>;
            }

            try
            {
                // ASSERT
                // ======

                // Serialization content is OK
                Assert.False(string.IsNullOrWhiteSpace(content));
                Assert.Equal(
                    $@"<ConcurrentObservableDDCDictionaryByint xmlns=""http://ns.ixiancorp.com/IX/IX.Observable"" xmlns:i=""http://www.w3.org/2001/XMLSchema-instance""><Entry><Key>{ddc1.RandomValue}</Key><Value xmlns:a=""http://schemas.datacontract.org/2004/07/IX.UnitTests.Observable""><a:RandomValue>{ddc1.RandomValue}</a:RandomValue></Value></Entry><Entry><Key>{ddc2.RandomValue}</Key><Value xmlns:a=""http://schemas.datacontract.org/2004/07/IX.UnitTests.Observable""><a:RandomValue>{ddc2.RandomValue}</a:RandomValue></Value></Entry><Entry><Key>{ddc3.RandomValue}</Key><Value xmlns:a=""http://schemas.datacontract.org/2004/07/IX.UnitTests.Observable""><a:RandomValue>{ddc3.RandomValue}</a:RandomValue></Value></Entry><Entry><Key>{ddc4.RandomValue}</Key><Value xmlns:a=""http://schemas.datacontract.org/2004/07/IX.UnitTests.Observable""><a:RandomValue>{ddc4.RandomValue}</a:RandomValue></Value></Entry></ConcurrentObservableDDCDictionaryByint>",
                    content);

                // Deserialized object is OK
                Assert.NotNull(l2);
                Assert.Equal(
                    l1.Count,
                    l2.Count);

#pragma warning disable HAA0401 // Possible allocation of reference type enumerator - Acceptable in this unit test
                foreach (var key in l1.Keys)
#pragma warning restore HAA0401 // Possible allocation of reference type enumerator
                {
                    Assert.True(l1[key].Equals(l2[key]));
                }
            }
            finally
            {
                l2?.Dispose();
            }
        }
    }