System.Collections.Generic.HashSet.Add(string)

Here are the examples of the csharp api System.Collections.Generic.HashSet.Add(string) taken from open source projects. By voting up you can indicate which examples are most useful and appropriate.

3552 Examples 7

19 View Source File : ReferenceNameBuilder.cs
License : MIT License
Project Creator : actions

internal String Build()
        {
            var original = m_name.Length > 0 ? m_name.ToString() : "job";

            var attempt = 1;
            var suffix = default(String);
            while (true)
            {
                if (attempt == 1)
                {
                    suffix = String.Empty;
                }
                else if (attempt < 1000)
                {
                    suffix = String.Format(CultureInfo.InvariantCulture, "_{0}", attempt);
                }
                else
                {
                    throw new InvalidOperationException("Unable to create a unique name");
                }

                var candidate = original.Substring(0, Math.Min(original.Length, PipelineConstants.MaxNodeNameLength - suffix.Length)) + suffix;

                if (m_distinctNames.Add(candidate))
                {
                    m_name.Clear();
                    return candidate;
                }

                attempt++;
            }
        }

19 View Source File : ActionCommandManager.cs
License : MIT License
Project Creator : actions

public bool TryProcessCommand(IExecutionContext context, string input, ContainerInfo container)
        {
            if (string.IsNullOrEmpty(input))
            {
                return false;
            }

            // TryParse input to Command
            ActionCommand actionCommand;
            if (!ActionCommand.TryParseV2(input, _registeredCommands, out actionCommand) &&
                !ActionCommand.TryParse(input, _registeredCommands, out actionCommand))
            {
                return false;
            }

            if (!ActionCommandManager.EnhancedAnnotationsEnabled(context) && actionCommand.Command == "notice")
            {
                context.Debug($"Enhanced Annotations not enabled on the server: 'notice' command will not be processed.");
                return false;
            }

            // Serialize order
            lock (_commandSerializeLock)
            {
                // Currently stopped
                if (_stopProcessCommand)
                {
                    // Resume token
                    if (!string.IsNullOrEmpty(_stopToken) &&
                             string.Equals(actionCommand.Command, _stopToken, StringComparison.OrdinalIgnoreCase))
                    {
                        context.Output(input);
                        context.Debug("Resume processing commands");
                        _registeredCommands.Remove(_stopToken);
                        _stopProcessCommand = false;
                        _stopToken = null;
                        return true;
                    }
                    else
                    {
                        context.Debug($"Process commands has been stopped and waiting for '##[{_stopToken}]' to resume.");
                        return false;
                    }
                }
                // Currently processing
                else
                {
                    // Stop command
                    if (string.Equals(actionCommand.Command, _stopCommand, StringComparison.OrdinalIgnoreCase))
                    {
                        ValidateStopToken(context, actionCommand.Data);

                        _stopToken = actionCommand.Data;
                        _stopProcessCommand = true;
                        _registeredCommands.Add(_stopToken);
                        if (_stopToken.Length > 6)
                        {
                            HostContext.SecretMasker.AddValue(_stopToken);
                        }

                        context.Output(input);
                        context.Debug("Paused processing commands until the token you called ::stopCommands:: with is received");
                        return true;
                    }
                    // Found command
                    else if (_commandExtensions.TryGetValue(actionCommand.Command, out IActionCommandExtension extension))
                    {
                        if (context.EchoOnActionCommand && !extension.OmitEcho)
                        {
                            context.Output(input);
                        }

                        try
                        {
                            extension.ProcessCommand(context, input, actionCommand, container);
                        }
                        catch (Exception ex)
                        {
                            var commandInformation = extension.OmitEcho ? extension.Command : input;
                            context.Error($"Unable to process command '{commandInformation}' successfully.");
                            context.Error(ex);
                            context.CommandResult = TaskResult.Failed;
                        }
                    }
                    // Command not found
                    else
                    {
                        context.Warning($"Can't find command extension for ##[{actionCommand.Command}.command].");
                    }
                }
            }

            return true;
        }

19 View Source File : ONSPPropagationSerializationManager.cs
License : MIT License
Project Creator : absurd-joy

private static void BuildAudioGeometryForScene(Scene scene)
    {
        Debug.Log("Building audio geometry for scene " + scene.name);

        List<GameObject> rootObjects = new List<GameObject>();
        scene.GetRootGameObjects(rootObjects);

        HashSet<string> fileNames = new HashSet<string>();
        foreach (GameObject go in rootObjects)
        {
            var geometryComponents = go.GetComponentsInChildren<ONSPPropagationGeometry>();
            foreach (ONSPPropagationGeometry geo in geometryComponents)
            {
                if (geo.fileEnabled)
                {
                    if (!geo.WriteFile())
                    {
                        Debug.LogError("Failed writing geometry for " + geo.gameObject.name);
                    }
                    else
                    {
                        if (!fileNames.Add(geo.filePathRelative))
                        {
                            Debug.LogWarning("Duplicate file name detected: " + geo.filePathRelative);
                        }
                    }
                }
            }
        }

        Debug.Log("Successfully built " + fileNames.Count + " geometry objects");
    }

19 View Source File : JobExtension.cs
License : MIT License
Project Creator : actions

public async Task<List<IStep>> InitializeJob(IExecutionContext jobContext, Pipelines.AgentJobRequestMessage message)
        {
            Trace.Entering();
            ArgUtil.NotNull(jobContext, nameof(jobContext));
            ArgUtil.NotNull(message, nameof(message));

            // Create a new timeline record for 'Set up job'
            IExecutionContext context = jobContext.CreateChild(Guid.NewGuid(), "Set up job", $"{nameof(JobExtension)}_Init", null, null, ActionRunStage.Pre);

            List<IStep> preJobSteps = new List<IStep>();
            List<IStep> jobSteps = new List<IStep>();
            using (var register = jobContext.CancellationToken.Register(() => { context.CancelToken(); }))
            {
                try
                {
                    context.Start();
                    context.Debug($"Starting: Set up job");
                    context.Output($"Current runner version: '{BuildConstants.RunnerPackage.Version}'");

                    var setting = HostContext.GetService<IConfigurationStore>().GetSettings();
                    var credFile = HostContext.GetConfigFile(WellKnownConfigFile.Credentials);
                    if (File.Exists(credFile))
                    {
                        var credData = IOUtil.LoadObject<CredentialData>(credFile);
                        if (credData != null &&
                            credData.Data.TryGetValue("clientId", out var clientId))
                        {
                            // print out HostName for self-hosted runner
                            context.Output($"Runner name: '{setting.AgentName}'");
                            if (message.Variables.TryGetValue("system.runnerGroupName", out VariableValue runnerGroupName))
                            {
                                context.Output($"Runner group name: '{runnerGroupName.Value}'");
                            }
                            context.Output($"Machine name: '{Environment.MachineName}'");
                        }
                    }

                    var setupInfoFile = HostContext.GetConfigFile(WellKnownConfigFile.SetupInfo);
                    if (File.Exists(setupInfoFile))
                    {
                        Trace.Info($"Load machine setup info from {setupInfoFile}");
                        try
                        {
                            var setupInfo = IOUtil.LoadObject<List<SetupInfo>>(setupInfoFile);
                            if (setupInfo?.Count > 0)
                            {
                                foreach (var info in setupInfo)
                                {
                                    if (!string.IsNullOrEmpty(info?.Detail))
                                    {
                                        var groupName = info.Group;
                                        if (string.IsNullOrEmpty(groupName))
                                        {
                                            groupName = "Machine Setup Info";
                                        }

                                        context.Output($"##[group]{groupName}");
                                        var multiLines = info.Detail.Replace("\r\n", "\n").TrimEnd('\n').Split('\n');
                                        foreach (var line in multiLines)
                                        {
                                            context.Output(line);
                                        }
                                        context.Output("##[endgroup]");
                                    }
                                }
                            }
                        }
                        catch (Exception ex)
                        {
                            context.Output($"Fail to load and print machine setup info: {ex.Message}");
                            Trace.Error(ex);
                        }
                    }

                    try 
                    {
                        var tokenPermissions = jobContext.Global.Variables.Get("system.github.token.permissions") ?? "";
                        if (!string.IsNullOrEmpty(tokenPermissions))
                        {
                            context.Output($"##[group]GITHUB_TOKEN Permissions");
                            var permissions = StringUtil.ConvertFromJson<Dictionary<string, string>>(tokenPermissions);
                            foreach(KeyValuePair<string, string> entry in permissions)
                            {
                                context.Output($"{entry.Key}: {entry.Value}");
                            }
                            context.Output("##[endgroup]");
                        }
                    } 
                    catch (Exception ex)
                    {
                        context.Output($"Fail to parse and display GITHUB_TOKEN permissions list: {ex.Message}");
                        Trace.Error(ex);
                    }

                    var repoFullName = context.GetGitHubContext("repository");
                    ArgUtil.NotNull(repoFullName, nameof(repoFullName));
                    context.Debug($"Primary repository: {repoFullName}");

                    // Print proxy setting information for better diagnostic experience
                    if (!string.IsNullOrEmpty(HostContext.WebProxy.HttpProxyAddress))
                    {
                        context.Output($"Runner is running behind proxy server '{HostContext.WebProxy.HttpProxyAddress}' for all HTTP requests.");
                    }
                    if (!string.IsNullOrEmpty(HostContext.WebProxy.HttpsProxyAddress))
                    {
                        context.Output($"Runner is running behind proxy server '{HostContext.WebProxy.HttpsProxyAddress}' for all HTTPS requests.");
                    }

                    // Prepare the workflow directory
                    context.Output("Prepare workflow directory");
                    var directoryManager = HostContext.GetService<IPipelineDirectoryManager>();
                    TrackingConfig trackingConfig = directoryManager.PrepareDirectory(
                        context,
                        message.Workspace);

                    // Set the directory variables
                    context.Debug("Update context data");
                    string _workDirectory = HostContext.GetDirectory(WellKnownDirectory.Work);
                    context.SetRunnerContext("workspace", Path.Combine(_workDirectory, trackingConfig.PipelineDirectory));
                    context.SetGitHubContext("workspace", Path.Combine(_workDirectory, trackingConfig.WorkspaceDirectory));

                    // Temporary hack for GHES alpha
                    var configurationStore = HostContext.GetService<IConfigurationStore>();
                    var runnerSettings = configurationStore.GetSettings();
                    if (string.IsNullOrEmpty(context.GetGitHubContext("server_url")) && !runnerSettings.IsHostedServer && !string.IsNullOrEmpty(runnerSettings.GitHubUrl))
                    {
                        var url = new Uri(runnerSettings.GitHubUrl);
                        var portInfo = url.IsDefaultPort ? string.Empty : $":{url.Port.ToString(CultureInfo.InvariantCulture)}";
                        context.SetGitHubContext("server_url", $"{url.Scheme}://{url.Host}{portInfo}");
                        context.SetGitHubContext("api_url", $"{url.Scheme}://{url.Host}{portInfo}/api/v3");
                        context.SetGitHubContext("graphql_url", $"{url.Scheme}://{url.Host}{portInfo}/api/graphql");
                    }

                    // Evaluate the job-level environment variables
                    context.Debug("Evaluating job-level environment variables");
                    var templateEvaluator = context.ToPipelineTemplateEvaluator();
                    foreach (var token in message.EnvironmentVariables)
                    {
                        var environmentVariables = templateEvaluator.EvaluateStepEnvironment(token, jobContext.ExpressionValues, jobContext.ExpressionFunctions, VarUtil.EnvironmentVariableKeyComparer);
                        foreach (var pair in environmentVariables)
                        {
                            context.Global.EnvironmentVariables[pair.Key] = pair.Value ?? string.Empty;
                            context.SetEnvContext(pair.Key, pair.Value ?? string.Empty);
                        }
                    }

                    // Evaluate the job container
                    context.Debug("Evaluating job container");
                    var container = templateEvaluator.EvaluateJobContainer(message.JobContainer, jobContext.ExpressionValues, jobContext.ExpressionFunctions);
                    if (container != null)
                    {
                        jobContext.Global.Container = new Container.ContainerInfo(HostContext, container);
                    }

                    // Evaluate the job service containers
                    context.Debug("Evaluating job service containers");
                    var serviceContainers = templateEvaluator.EvaluateJobServiceContainers(message.JobServiceContainers, jobContext.ExpressionValues, jobContext.ExpressionFunctions);
                    if (serviceContainers?.Count > 0)
                    {
                        foreach (var pair in serviceContainers)
                        {
                            var networkAlias = pair.Key;
                            var serviceContainer = pair.Value;
                            jobContext.Global.ServiceContainers.Add(new Container.ContainerInfo(HostContext, serviceContainer, false, networkAlias));
                        }
                    }

                    // Evaluate the job defaults
                    context.Debug("Evaluating job defaults");
                    foreach (var token in message.Defaults)
                    {
                        var defaults = token.replacedertMapping("defaults");
                        if (defaults.Any(x => string.Equals(x.Key.replacedertString("defaults key").Value, "run", StringComparison.OrdinalIgnoreCase)))
                        {
                            context.Global.JobDefaults["run"] = new Dictionary<string, string>(StringComparer.OrdinalIgnoreCase);
                            var defaultsRun = defaults.First(x => string.Equals(x.Key.replacedertString("defaults key").Value, "run", StringComparison.OrdinalIgnoreCase));
                            var jobDefaults = templateEvaluator.EvaluateJobDefaultsRun(defaultsRun.Value, jobContext.ExpressionValues, jobContext.ExpressionFunctions);
                            foreach (var pair in jobDefaults)
                            {
                                if (!string.IsNullOrEmpty(pair.Value))
                                {
                                    context.Global.JobDefaults["run"][pair.Key] = pair.Value;
                                }
                            }
                        }
                    }

                    // Build up 2 lists of steps, pre-job, job
                    // Download actions not already in the cache
                    Trace.Info("Downloading actions");
                    var actionManager = HostContext.GetService<IActionManager>();
                    var prepareResult = await actionManager.PrepareActionsAsync(context, message.Steps);
                    preJobSteps.AddRange(prepareResult.ContainerSetupSteps);

                    // Add start-container steps, record and stop-container steps
                    if (jobContext.Global.Container != null || jobContext.Global.ServiceContainers.Count > 0)
                    {
                        var containerProvider = HostContext.GetService<IContainerOperationProvider>();
                        var containers = new List<Container.ContainerInfo>();
                        if (jobContext.Global.Container != null)
                        {
                            containers.Add(jobContext.Global.Container);
                        }
                        containers.AddRange(jobContext.Global.ServiceContainers);

                        preJobSteps.Add(new JobExtensionRunner(runAsync: containerProvider.StartContainersAsync,
                                                                          condition: $"{PipelineTemplateConstants.Success}()",
                                                                          displayName: "Initialize containers",
                                                                          data: (object)containers));
                    }

                    // Add action steps
                    foreach (var step in message.Steps)
                    {
                        if (step.Type == Pipelines.StepType.Action)
                        {
                            var action = step as Pipelines.ActionStep;
                            Trace.Info($"Adding {action.DisplayName}.");
                            var actionRunner = HostContext.CreateService<IActionRunner>();
                            actionRunner.Action = action;
                            actionRunner.Stage = ActionRunStage.Main;
                            actionRunner.Condition = step.Condition;
                            var contextData = new Pipelines.ContextData.DictionaryContextData();
                            if (message.ContextData?.Count > 0)
                            {
                                foreach (var pair in message.ContextData)
                                {
                                    contextData[pair.Key] = pair.Value;
                                }
                            }

                            actionRunner.TryEvaluateDisplayName(contextData, context);
                            jobSteps.Add(actionRunner);

                            if (prepareResult.PreStepTracker.TryGetValue(step.Id, out var preStep))
                            {
                                Trace.Info($"Adding pre-{action.DisplayName}.");
                                preStep.TryEvaluateDisplayName(contextData, context);
                                preStep.DisplayName = $"Pre {preStep.DisplayName}";
                                preJobSteps.Add(preStep);
                            }
                        }
                    }

                    var intraActionStates = new Dictionary<Guid, Dictionary<string, string>>();
                    foreach (var preStep in prepareResult.PreStepTracker)
                    {
                        intraActionStates[preStep.Key] = new Dictionary<string, string>(StringComparer.OrdinalIgnoreCase);
                    }

                    // Create execution context for pre-job steps
                    foreach (var step in preJobSteps)
                    {
                        if (step is JobExtensionRunner)
                        {
                            JobExtensionRunner extensionStep = step as JobExtensionRunner;
                            ArgUtil.NotNull(extensionStep, extensionStep.DisplayName);
                            Guid stepId = Guid.NewGuid();
                            extensionStep.ExecutionContext = jobContext.CreateChild(stepId, extensionStep.DisplayName, null, null, stepId.ToString("N"), ActionRunStage.Pre);
                        }
                        else if (step is IActionRunner actionStep)
                        {
                            ArgUtil.NotNull(actionStep, step.DisplayName);
                            Guid stepId = Guid.NewGuid();
                            actionStep.ExecutionContext = jobContext.CreateChild(stepId, actionStep.DisplayName, stepId.ToString("N"), null, null, ActionRunStage.Pre, intraActionStates[actionStep.Action.Id]);
                        }
                    }

                    // Create execution context for job steps
                    foreach (var step in jobSteps)
                    {
                        if (step is IActionRunner actionStep)
                        {
                            ArgUtil.NotNull(actionStep, step.DisplayName);
                            intraActionStates.TryGetValue(actionStep.Action.Id, out var intraActionState);
                            actionStep.ExecutionContext = jobContext.CreateChild(actionStep.Action.Id, actionStep.DisplayName, actionStep.Action.Name, null, actionStep.Action.ContextName, ActionRunStage.Main, intraActionState);
                        }
                    }

                    List<IStep> steps = new List<IStep>();
                    steps.AddRange(preJobSteps);
                    steps.AddRange(jobSteps);

                    // Prepare for orphan process cleanup
                    _processCleanup = jobContext.Global.Variables.GetBoolean("process.clean") ?? true;
                    if (_processCleanup)
                    {
                        // Set the RUNNER_TRACKING_ID env variable.
                        Environment.SetEnvironmentVariable(Constants.ProcessTrackingId, _processLookupId);
                        context.Debug("Collect running processes for tracking orphan processes.");

                        // Take a snapshot of current running processes
                        Dictionary<int, Process> processes = SnapshotProcesses();
                        foreach (var proc in processes)
                        {
                            // Pid_ProcessName
                            _existingProcesses.Add($"{proc.Key}_{proc.Value.ProcessName}");
                        }
                    }

                    jobContext.Global.EnvironmentVariables.TryGetValue(Constants.Runner.Features.DiskSpaceWarning, out var enableWarning);
                    if (StringUtil.ConvertToBoolean(enableWarning, defaultValue: true))
                    {
                        _diskSpaceCheckTask = CheckDiskSpaceAsync(context, _diskSpaceCheckToken.Token);
                    }

                    return steps;
                }
                catch (OperationCanceledException ex) when (jobContext.CancellationToken.IsCancellationRequested)
                {
                    // Log the exception and cancel the JobExtension Initialization.
                    Trace.Error($"Caught cancellation exception from JobExtension Initialization: {ex}");
                    context.Error(ex);
                    context.Result = TaskResult.Canceled;
                    throw;
                }
                catch (FailedToResolveActionDownloadInfoException ex)
                {
                    // Log the error and fail the JobExtension Initialization.
                    Trace.Error($"Caught exception from JobExtenion Initialization: {ex}");
                    context.InfrastructureError(ex.Message);
                    context.Result = TaskResult.Failed;
                    throw;
                }
                catch (Exception ex)
                {
                    // Log the error and fail the JobExtension Initialization.
                    Trace.Error($"Caught exception from JobExtension Initialization: {ex}");
                    context.Error(ex);
                    context.Result = TaskResult.Failed;
                    throw;
                }
                finally
                {
                    context.Debug("Finishing: Set up job");
                    context.Complete();
                }
            }
        }

19 View Source File : AudioDeviceSource.cs
License : MIT License
Project Creator : ABTSoftware

private void RefreshDevices()
        {
            if (!_dispatcher.CheckAccess())
            {
                _dispatcher.BeginInvoke((Action)RefreshDevices);
                return;
            }
            DefaultDevice = GetDefaultDevice();

            var deviceMap = Devices.ToDictionary(d => d.ID, d => d);
            var presentDevices = new HashSet<string>();

            foreach (var d in _enumerator.EnumerateAudioEndPoints(DataFlow.Capture, DeviceState.Active))
            {
                presentDevices.Add(d.ID);
                if(deviceMap.TryGetValue(d.ID, out var device))
                {
                    device.Update(d);
                }
                else
                {
                    Devices.Add(new AudioDeviceInfo(d));
                }
                d.Dispose();
            }

            for (int i = Devices.Count - 1; i >=0; i--)
            {
                if (!presentDevices.Contains(Devices[i].ID))
                {
                    Devices.RemoveAt(i);
                }
            }

            DevicesChanged?.Invoke(this, EventArgs.Empty);
        }

19 View Source File : SkinnedMeshCombiner.cs
License : Apache License 2.0
Project Creator : A7ocin

private static void replacedyzeSources(CombineInstance[] sources, int[] subMeshTriangleLength, ref int vertexCount, ref int bindPoseCount, ref int transformHierarchyCount, ref MeshComponents meshComponents, ref int blendShapeCount)
		{
			HashSet<string> blendShapeNames = new HashSet<string> (); //Hash to find all the unique blendshape names

			for (int i = 0; i < subMeshTriangleLength.Length; i++)
			{
				subMeshTriangleLength[i] = 0;
			}

			foreach (var source in sources)
			{
				vertexCount += source.meshData.vertices.Length;
				bindPoseCount += source.meshData.bindPoses.Length;
				transformHierarchyCount += source.meshData.umaBones.Length;
				if (source.meshData.normals != null && source.meshData.normals.Length != 0) meshComponents |= MeshComponents.has_normals;
				if (source.meshData.tangents != null && source.meshData.tangents.Length != 0) meshComponents |= MeshComponents.has_tangents;
				if (source.meshData.uv != null && source.meshData.uv.Length != 0) meshComponents |= MeshComponents.has_uv;
				if (source.meshData.uv2 != null && source.meshData.uv2.Length != 0) meshComponents |= MeshComponents.has_uv2;
				if (source.meshData.uv3 != null && source.meshData.uv3.Length != 0) meshComponents |= MeshComponents.has_uv3;
				if (source.meshData.uv4 != null && source.meshData.uv4.Length != 0) meshComponents |= MeshComponents.has_uv4;
				if (source.meshData.colors32 != null && source.meshData.colors32.Length != 0) meshComponents |= MeshComponents.has_colors32;
				if (source.meshData.clothSkinningSerialized != null && source.meshData.clothSkinningSerialized.Length != 0)	meshComponents |= MeshComponents.has_clothSkinning;

				//If we find a blendshape on this mesh then lets add it to the blendShapeNames hash to get all the unique names
				if (source.meshData.blendShapes != null && source.meshData.blendShapes.Length != 0)
				{
					for (int shapeIndex = 0; shapeIndex < source.meshData.blendShapes.Length; shapeIndex++)
						blendShapeNames.Add (source.meshData.blendShapes [shapeIndex].shapeName);
				}

				for (int i = 0; i < source.meshData.subMeshCount; i++)
				{
					if (source.targetSubmeshIndices[i] >= 0)
					{
						int triangleLength = (source.triangleMask == null) ? source.meshData.submeshes[i].triangles.Length :
							(source.meshData.submeshes[i].triangles.Length - (UMAUtils.GetCardinality(source.triangleMask[i]) * 3));

						subMeshTriangleLength[source.targetSubmeshIndices[i]] += triangleLength;
					}
				}
			}

			//If our blendshape hash has at least 1 name, then we have a blendshape!
			if (blendShapeNames.Count > 0) 
			{
				blendShapeCount = blendShapeNames.Count;
				meshComponents |= MeshComponents.has_blendShapes;
			}
		}

19 View Source File : TemplateReader.cs
License : MIT License
Project Creator : actions

private void HandleMappingWithAllLooseProperties(
            DefinitionInfo mappingDefinition,
            DefinitionInfo keyDefinition,
            DefinitionInfo valueDefinition,
            MappingToken mapping)
        {
            TemplateToken nextValue;
            var keys = new HashSet<String>(StringComparer.OrdinalIgnoreCase);

            while (m_objectReader.AllowLiteral(out LiteralToken rawLiteral))
            {
                var nextKeyScalar = ParseScalar(rawLiteral, mappingDefinition.AllowedContext);

                // Expression
                if (nextKeyScalar is ExpressionToken)
                {
                    // Legal
                    if (mappingDefinition.AllowedContext.Length > 0)
                    {
                        m_memory.AddBytes(nextKeyScalar);
                        nextValue = ReadValue(valueDefinition);
                        mapping.Add(nextKeyScalar, nextValue);
                    }
                    // Illegal
                    else
                    {
                        m_context.Error(nextKeyScalar, TemplateStrings.ExpressionNotAllowed());
                        SkipValue();
                    }

                    continue;
                }

                // Not a string, convert
                if (!(nextKeyScalar is StringToken nextKey))
                {
                    nextKey = new StringToken(nextKeyScalar.FileId, nextKeyScalar.Line, nextKeyScalar.Column, nextKeyScalar.ToString());
                }

                // Duplicate
                if (!keys.Add(nextKey.Value))
                {
                    m_context.Error(nextKey, TemplateStrings.ValueAlreadyDefined(nextKey.Value));
                    SkipValue();
                    continue;
                }

                // Validate
                Validate(nextKey, keyDefinition);
                m_memory.AddBytes(nextKey);

                // Add the pair
                nextValue = ReadValue(valueDefinition);
                mapping.Add(nextKey, nextValue);
            }

            ExpectMappingEnd();
        }

19 View Source File : IrdProvider.cs
License : MIT License
Project Creator : 13xforever

public async Task<HashSet<DiscKeyInfo>> EnumerateAsync(string discKeyCachePath, string ProductCode, CancellationToken cancellationToken)
        {
            ProductCode = ProductCode?.ToUpperInvariant();
            var result = new HashSet<DiscKeyInfo>();
            var knownFilenames = new HashSet<string>(StringComparer.InvariantCultureIgnoreCase);
            Log.Trace("Searching local cache for a match...");
            if (Directory.Exists(discKeyCachePath))
            {
                var matchingIrdFiles = Directory.GetFiles(discKeyCachePath, "*.ird", SearchOption.TopDirectoryOnly);
                foreach (var irdFile in matchingIrdFiles)
                {
                    try
                    {
                        try
                        {
                            var ird = IrdParser.Parse(File.ReadAllBytes(irdFile));
                            result.Add(new DiscKeyInfo(ird.Data1, null, irdFile, KeyType.Ird, ird.Crc32.ToString("x8")));
                            knownFilenames.Add(Path.GetFileName(irdFile));
                        }
                        catch (InvalidDataException)
                        {
                            File.Delete(irdFile);
                            continue;
                        }
                        catch (Exception e)
                        {
                            Log.Warn(e);
                            continue;
                        }
                    }
                    catch (Exception e)
                    {
                        Log.Warn(e, e.Message);
                    }
                }
            }

            Log.Trace("Searching IRD Library for match...");
            var irdInfoList = await Client.SearchAsync(ProductCode, cancellationToken).ConfigureAwait(false);
            var irdList = irdInfoList?.Data?.Where(
                              i => !knownFilenames.Contains(i.Filename) && i.Filename.Substring(0, 9).ToUpperInvariant() == ProductCode
                          ).ToList() ?? new List<SearchResulreplacedem>(0);
            if (irdList.Count == 0)
                Log.Debug("No matching IRD file was found in the Library");
            else
            {
                Log.Info($"Found {irdList.Count} new match{(irdList.Count == 1 ? "" : "es")} in the IRD Library");
                foreach (var irdInfo in irdList)
                {
                    var ird = await Client.DownloadAsync(irdInfo, discKeyCachePath, cancellationToken).ConfigureAwait(false);
                    result.Add(new DiscKeyInfo(ird.Data1, null, Path.Combine(discKeyCachePath, irdInfo.Filename), KeyType.Ird, ird.Crc32.ToString("x8")));
                    knownFilenames.Add(irdInfo.Filename);
                }
            }
            if (knownFilenames.Count == 0)
            {
                Log.Warn("No valid matching IRD file could be found");
                Log.Info($"If you have matching IRD file, you can put it in '{discKeyCachePath}' and try dumping the disc again");
            }

            Log.Info($"Found {result.Count} IRD files");
            return result;
        }

19 View Source File : TemplateEvaluator.cs
License : MIT License
Project Creator : actions

internal static TemplateToken Evaluate(
            TemplateContext context,
            String type,
            TemplateToken template,
            Int32 removeBytes,
            Int32? fileId,
            Boolean omitHeader = false)
        {
            TemplateToken result;

            if (!omitHeader)
            {
                if (fileId != null)
                {
                    context.TraceWriter.Info("{0}", $"Begin evaluating template '{context.GetFileName(fileId.Value)}'");
                }
                else
                {
                    context.TraceWriter.Info("{0}", "Begin evaluating template");
                }
            }

            var evaluator = new TemplateEvaluator(context, template, removeBytes);
            try
            {
                var availableContext = new HashSet<String>(StringComparer.OrdinalIgnoreCase);
                foreach (var key in context.ExpressionValues.Keys)
                {
                    availableContext.Add(key);
                }
                foreach (var function in context.ExpressionFunctions)
                {
                    availableContext.Add($"{function.Name}()");
                }

                var definitionInfo = new DefinitionInfo(context.Schema, type, availableContext);
                result = evaluator.Evaluate(definitionInfo);

                if (result != null)
                {
                    evaluator.m_unraveler.ReadEnd();
                }
            }
            catch (Exception ex)
            {
                context.Error(fileId, null, null, ex);
                result = null;
            }

            if (!omitHeader)
            {
                if (fileId != null)
                {
                    context.TraceWriter.Info("{0}", $"Finished evaluating template '{context.GetFileName(fileId.Value)}'");
                }
                else
                {
                    context.TraceWriter.Info("{0}", "Finished evaluating template");
                }
            }

            return result;
        }

19 View Source File : LProjectDependencies.cs
License : MIT License
Project Creator : 3F

public override bool Positioned(ISvc svc, RawText line)
        {
            var pItem = GetProjecreplacedem(line.trimmed, svc.Sln.SolutionDir);
            if(pItem.pGuid == null) {
                return false;
            }

            Projects[pItem.pGuid]   = pItem;
            map[pItem.pGuid]        = new HashSet<string>();

            while((line = svc.ReadLine(this)) != null && (line != "EndProject"))
            {
                if(!line.trimmed.StartsWith("ProjectSection(ProjectDependencies)", StringComparison.Ordinal)) {
                    continue;
                }

                for(line = svc.ReadLine(this); line != null; line = svc.ReadLine(this))
                {
                    if(line.trimmed.StartsWith("EndProjectSection", StringComparison.Ordinal)) {
                        break;
                    }

                    map[pItem.pGuid].Add(
                        FormatGuid(RPatterns.PropertyLine.Match(line).Groups["PName"].Value)
                    );
                }
            }

            svc.Sln.SetProjectDependencies(this);
            return true;
        }

19 View Source File : ProjectRootFolder.cs
License : MIT License
Project Creator : action-bi-toolkit

internal void FileWritten(string fullPath)
        {
            _filesWritten.Add(fullPath); // keeps track of files added or updated
            Log.Verbose("File written: {Path}", fullPath);
        }

19 View Source File : KeywordBuilder.cs
License : Apache License 2.0
Project Creator : acblog

public KeywordBuilder AddKeyword(params string[] names)
        {
            foreach (var name in names)
            {
                if (!name.Contains(';'))
                {
                    Inner.Add(name);
                }
                else
                {
                    throw new Exception($"Invalid keyword name: {name}.");
                }
            }
            return this;
        }

19 View Source File : Menu_PackageExporter.cs
License : MIT License
Project Creator : 5minlab

public string[] GetList() {
            var dirs = new string[] {
                    "replacedets/Minamo"
                };
            var set = new HashSet<string>();
            var founds = replacedetDatabase.Findreplacedets("", dirs);
            foreach (var guid in founds) {
                var replacedetPath = replacedetDatabase.GUIDToreplacedetPath(guid);
                if (replacedetPath.EndsWith(".cs")) {
                    set.Add(replacedetPath);
                }
            }

            var list = new List<string>(set);
            return list.ToArray();
        }

19 View Source File : TemplateEvaluator.cs
License : MIT License
Project Creator : actions

private void HandleMappingWithWellKnownProperties(
            DefinitionInfo definition,
            List<MappingDefinition> mappingDefinitions,
            MappingToken mapping)
        {
            // Check if loose properties are allowed
            String looseKeyType = null;
            String looseValueType = null;
            DefinitionInfo? looseKeyDefinition = null;
            DefinitionInfo? looseValueDefinition = null;
            if (!String.IsNullOrEmpty(mappingDefinitions[0].LooseKeyType))
            {
                looseKeyType = mappingDefinitions[0].LooseKeyType;
                looseValueType = mappingDefinitions[0].LooseValueType;
            }

            var keys = new HashSet<String>(StringComparer.OrdinalIgnoreCase);
            var hasExpressionKey = false;

            while (m_unraveler.AllowScalar(definition.Expand, out ScalarToken nextKeyScalar))
            {
                // Expression
                if (nextKeyScalar is ExpressionToken)
                {
                    hasExpressionKey = true;
                    var anyDefinition = new DefinitionInfo(definition, TemplateConstants.Any);
                    mapping.Add(nextKeyScalar, Evaluate(anyDefinition));
                    continue;
                }

                // Not a string, convert
                if (!(nextKeyScalar is StringToken nextKey))
                {
                    nextKey = new StringToken(nextKeyScalar.FileId, nextKeyScalar.Line, nextKeyScalar.Column, nextKeyScalar.ToString());
                }

                // Duplicate
                if (!keys.Add(nextKey.Value))
                {
                    m_context.Error(nextKey, TemplateStrings.ValueAlreadyDefined(nextKey.Value));
                    m_unraveler.SkipMappingValue();
                    continue;
                }

                // Well known
                if (m_schema.TryMatchKey(mappingDefinitions, nextKey.Value, out String nextValueType))
                {
                    var nextValueDefinition = new DefinitionInfo(definition, nextValueType);
                    var nextValue = Evaluate(nextValueDefinition);
                    mapping.Add(nextKey, nextValue);
                    continue;
                }

                // Loose
                if (looseKeyType != null)
                {
                    if (looseKeyDefinition == null)
                    {
                        looseKeyDefinition = new DefinitionInfo(definition, looseKeyType);
                        looseValueDefinition = new DefinitionInfo(definition, looseValueType);
                    }

                    Validate(nextKey, looseKeyDefinition.Value);
                    var nextValue = Evaluate(looseValueDefinition.Value);
                    mapping.Add(nextKey, nextValue);
                    continue;
                }

                // Error
                m_context.Error(nextKey, TemplateStrings.UnexpectedValue(nextKey.Value));
                m_unraveler.SkipMappingValue();
            }

            // Only one
            if (mappingDefinitions.Count > 1)
            {
                var hitCount = new Dictionary<String, Int32>();
                foreach (MappingDefinition mapdef in mappingDefinitions)
                {
                    foreach (String key in mapdef.Properties.Keys)
                    {
                        if (!hitCount.TryGetValue(key, out Int32 value))
                        {
                            hitCount.Add(key, 1);
                        }
                        else
                        {
                            hitCount[key] = value + 1;
                        }
                    }
                }

                List<String> nonDuplicates = new List<String>();
                foreach (String key in hitCount.Keys)
                {
                    if (hitCount[key] == 1)
                    {
                        nonDuplicates.Add(key);
                    }
                }
                nonDuplicates.Sort();

                String listToDeDuplicate = String.Join(", ", nonDuplicates);
                m_context.Error(mapping, TemplateStrings.UnableToDetermineOneOf(listToDeDuplicate));
            }
            else if (mappingDefinitions.Count == 1 && !hasExpressionKey)
            {
                foreach (var property in mappingDefinitions[0].Properties)
                {
                    if (property.Value.Required)
                    {
                        if (!keys.Contains(property.Key))
                        {
                            m_context.Error(mapping, $"Required property is missing: {property.Key}");
                        }
                    }
                }
            }

            m_unraveler.ReadMappingEnd();
        }

19 View Source File : XnaToFnaUtil.cs
License : zlib License
Project Creator : 0x0ade

public void ScanPath(string path) {
            if (Directory.Exists(path)) {
                // Use the directory as "dependency directory" and scan in it.
                if (Directories.Contains(path))
                    // No need to scan the dir if the dir is scanned...
                    return;

                RestoreBackup(path);

                Log($"[ScanPath] Scanning directory {path}");
                Directories.Add(path);
                replacedemblyResolver.AddSearchDirectory(path); // Needs to be added manually as DependencyDirs was already added

                // Most probably the actual game directory - let's just copy XnaToFna.exe to there to be referenced properly.
                string xtfPath = Path.Combine(path, Path.GetFileName(Thisreplacedembly.Location));
                if (Path.GetDirectoryName(Thisreplacedembly.Location) != path) {
                    Log($"[ScanPath] Found separate game directory - copying XnaToFna.exe and FNA.dll");
                    File.Copy(Thisreplacedembly.Location, xtfPath, true);

                    string dbExt = null;
                    if (File.Exists(Path.ChangeExtension(Thisreplacedembly.Location, "pdb")))
                        dbExt = "pdb";
                    if (File.Exists(Path.ChangeExtension(Thisreplacedembly.Location, "mdb")))
                        dbExt = "mdb";
                    if (dbExt != null)
                        File.Copy(Path.ChangeExtension(Thisreplacedembly.Location, dbExt), Path.ChangeExtension(xtfPath, dbExt), true);

                    if (File.Exists(Path.Combine(Path.GetDirectoryName(Thisreplacedembly.Location), "FNA.dll")))
                        File.Copy(Path.Combine(Path.GetDirectoryName(Thisreplacedembly.Location), "FNA.dll"), Path.Combine(path, "FNA.dll"), true);
                    else if (File.Exists(Path.Combine(Path.GetDirectoryName(Thisreplacedembly.Location), "FNA.dll.tmp")))
                        File.Copy(Path.Combine(Path.GetDirectoryName(Thisreplacedembly.Location), "FNA.dll.tmp"), Path.Combine(path, "FNA.dll"), true);

                }

                ScanPaths(Directory.GetFiles(path));
                return;
            }

            if (File.Exists(path + ".xex")) {
                if (!ExtractedXEX.Contains(path)) {
                    // Remove the original file - let XnaToFna unpack and handle it later.
                    File.Delete(path);
                } else {
                    // XnaToFna will handle the .xex instead.
                }
                return;
            }

            if (path.EndsWith(".xex")) {
                string pathTarget = path.Substring(0, path.Length - 4);
                if (string.IsNullOrEmpty(Path.GetExtension(pathTarget)))
                    return;

                using (Stream streamXEX = File.OpenRead(path))
                using (BinaryReader reader = new BinaryReader(streamXEX))
                using (Stream streamRAW = File.OpenWrite(pathTarget)) {
                    XEXImageData data = new XEXImageData(reader);

                    int offset = 0;
                    int size = data.m_memorySize;

                    // Check if this file is a PE containing an embedded PE.
                    if (data.m_memorySize > 0x10000) { // One default segment alignment.
                        using (MemoryStream streamMEM = new MemoryStream(data.m_memoryData))
                        using (BinaryReader mem = new BinaryReader(streamMEM)) {
                            if (mem.ReadUInt32() != 0x00905A4D) // MZ
                                goto WriteRaw;
                            // This is horrible.
                            streamMEM.Seek(0x00000280, SeekOrigin.Begin);
                            if (mem.ReadUInt64() != 0x000061746164692E) // ".idata\0\0"
                                goto WriteRaw;
                            streamMEM.Seek(0x00000288, SeekOrigin.Begin);
                            mem.ReadInt32(); // Virtual size; It's somewhat incorrect?
                            offset = mem.ReadInt32(); // Virtual offset.
                            // mem.ReadInt32(); // Raw size; Still incorrect.
                            // Let's just write everything...
                            size = data.m_memorySize - offset;
                        }
                    }

                    WriteRaw:
                    streamRAW.Write(data.m_memoryData, offset, size);
                }

                path = pathTarget;
                ExtractedXEX.Add(pathTarget);
            } else if (!path.EndsWith(".dll") && !path.EndsWith(".exe"))
                return;

            // Check if .dll is CLR replacedembly
            replacedemblyName name;
            try {
                name = replacedemblyName.GetreplacedemblyName(path);
            } catch {
                return;
            }

            ReaderParameters modReaderParams = Modder.GenReaderParameters(false);
            // Don't ReadWrite if the module being read is XnaToFna or a relink target.
            bool isReadWrite =
#if !CECIL0_9
            modReaderParams.ReadWrite =
#endif
                path != Thisreplacedembly.Location &&
                !Mappings.Exists(mappings => name.Name == mappings.Target);
            // Only read debug info if it exists
            if (!File.Exists(path + ".mdb") && !File.Exists(Path.ChangeExtension(path, "pdb")))
                modReaderParams.ReadSymbols = false;
            Log($"[ScanPath] Checking replacedembly {name.Name} ({(isReadWrite ? "rw" : "r-")})");
            ModuleDefinition mod;
            try {
                mod = MonoModExt.ReadModule(path, modReaderParams);
            } catch (Exception e) {
                Log($"[ScanPath] WARNING: Cannot load replacedembly: {e}");
                return;
            }
            bool add = !isReadWrite || name.Name == ThisreplacedemblyName;

            if ((mod.Attributes & ModuleAttributes.ILOnly) != ModuleAttributes.ILOnly) {
                // Mono.Cecil can't handle mixed mode replacedemblies.
                Log($"[ScanPath] WARNING: Cannot handle mixed mode replacedembly {name.Name}");
                if (MixedDeps == MixedDepAction.Stub) {
                    ModulesToStub.Add(mod);
                    add = true;
                } else {
                    if (MixedDeps == MixedDepAction.Remove) {
                        RemoveDeps.Add(name.Name);
                    }
#if !CECIL0_9
                    mod.Dispose();
#endif
                    return;
                }
            }

            if (add && !isReadWrite) { // XNA replacement
                foreach (XnaToFnaMapping mapping in Mappings)
                    if (name.Name == mapping.Target) {
                        mapping.IsActive = true;
                        mapping.Module = mod;
                        foreach (string from in mapping.Sources) {
                            Log($"[ScanPath] Mapping {from} -> {name.Name}");
                            Modder.RelinkModuleMap[from] = mod;
                        }
                    }
            } else if (!add) {
                foreach (XnaToFnaMapping mapping in Mappings)
                    if (mod.replacedemblyReferences.Any(dep => mapping.Sources.Contains(dep.Name))) {
                        add = true;
                        Log($"[ScanPath] XnaToFna-ing {name.Name}");
                        goto BreakMappings;
                    }
            }
            BreakMappings:

            if (add) {
                Modules.Add(mod);
                ModulePaths[mod] = path;
            } else {
#if !CECIL0_9
                mod.Dispose();
#endif
            }

        }

19 View Source File : TemplateEvaluator.cs
License : MIT License
Project Creator : actions

private void HandleMappingWithAllLooseProperties(
            DefinitionInfo mappingDefinition,
            DefinitionInfo keyDefinition,
            DefinitionInfo valueDefinition,
            MappingToken mapping)
        {
            var keys = new HashSet<String>(StringComparer.OrdinalIgnoreCase);

            while (m_unraveler.AllowScalar(mappingDefinition.Expand, out ScalarToken nextKeyScalar))
            {
                // Expression
                if (nextKeyScalar is ExpressionToken)
                {
                    if (nextKeyScalar is BasicExpressionToken)
                    {
                        mapping.Add(nextKeyScalar, Evaluate(valueDefinition));
                    }
                    else
                    {
                        var anyDefinition = new DefinitionInfo(mappingDefinition, TemplateConstants.Any);
                        mapping.Add(nextKeyScalar, Evaluate(anyDefinition));
                    }

                    continue;
                }

                // Not a string
                if (!(nextKeyScalar is StringToken nextKey))
                {
                    nextKey = new StringToken(nextKeyScalar.FileId, nextKeyScalar.Line, nextKeyScalar.Column, nextKeyScalar.ToString());
                }

                // Duplicate
                if (!keys.Add(nextKey.Value))
                {
                    m_context.Error(nextKey, TemplateStrings.ValueAlreadyDefined(nextKey.Value));
                    m_unraveler.SkipMappingValue();
                    continue;
                }

                // Validate
                Validate(nextKey, keyDefinition);

                // Add the pair
                var nextValue = Evaluate(valueDefinition);
                mapping.Add(nextKey, nextValue);
            }

            m_unraveler.ReadMappingEnd();
        }

19 View Source File : UMACrowdRandomSet.cs
License : Apache License 2.0
Project Creator : A7ocin

public static void Apply(UMA.UMAData umaData, CrowdRaceData race, Color skinColor, Color HairColor, Color Shine, HashSet<string> Keywords, SlotLibraryBase slotLibrary, OverlayLibraryBase overlayLibrary)
		{
			var slotParts = new HashSet<string>();
			umaData.umaRecipe.slotDataList = new SlotData[race.slotElements.Length];
			for (int i = 0; i < race.slotElements.Length; i++)
			{
				var currentElement = race.slotElements[i];
				if (!string.IsNullOrEmpty(currentElement.requirement) && !slotParts.Contains(currentElement.requirement)) continue;
				if (!string.IsNullOrEmpty(currentElement.condition))
				{
					if (currentElement.condition.StartsWith("!"))
					{
						if (Keywords.Contains(currentElement.condition.Substring(1))) continue;
					}
					else
					{
						if (!Keywords.Contains(currentElement.condition)) continue;
					}
				}
				if (currentElement.possibleSlots.Length == 0) continue;
				int randomResult = Random.Range(0, currentElement.possibleSlots.Length);
				var slot = currentElement.possibleSlots[randomResult];
				if (string.IsNullOrEmpty(slot.slotID)) continue;
				slotParts.Add(slot.slotID);
				SlotData slotData;
				if (slot.useSharedOverlayList && slot.overlayListSource >= 0 && slot.overlayListSource < i)
				{
					slotData = slotLibrary.InstantiateSlot(slot.slotID, umaData.umaRecipe.slotDataList[slot.overlayListSource].GetOverlayList());
				}
				else
				{
					if (slot.useSharedOverlayList)
					{
						Debug.LogError("UMA Crowd: Invalid overlayListSource for " + slot.slotID);
					}
					slotData = slotLibrary.InstantiateSlot(slot.slotID);
				}
				umaData.umaRecipe.slotDataList[i] = slotData;
				for (int overlayIdx = 0; overlayIdx < slot.overlayElements.Length; overlayIdx++)
				{
					var currentOverlayElement = slot.overlayElements[overlayIdx];
					randomResult = Random.Range(0, currentOverlayElement.possibleOverlays.Length);
					var overlay = currentOverlayElement.possibleOverlays[randomResult];
					if (string.IsNullOrEmpty(overlay.overlayID)) continue;
					overlay.UpdateVersion();
					slotParts.Add(overlay.overlayID);
					Color overlayColor = Color.black;
					var overlayData = overlayLibrary.InstantiateOverlay(overlay.overlayID, overlayColor);


					switch (overlay.overlayType)
					{
						case UMACrowdRandomSet.OverlayType.Color:
							overlayColor = overlay.minRGB;
							overlayData.colorData.color = overlayColor;

							break;
						case UMACrowdRandomSet.OverlayType.Texture:
							overlayColor = Color.white;
							overlayData.colorData.color = overlayColor;
							break;
						case UMACrowdRandomSet.OverlayType.Hair:
							overlayColor = HairColor * overlay.hairColorMultiplier;
							overlayColor.a = 1.0f;
							overlayData.colorData.color = overlayColor;
							break;
						case UMACrowdRandomSet.OverlayType.Skin:
							overlayColor = skinColor;//  + new Color(Random.Range(overlay.minRGB.r, overlay.maxRGB.r), Random.Range(overlay.minRGB.g, overlay.maxRGB.g), Random.Range(overlay.minRGB.b, overlay.maxRGB.b), 1);
							overlayData.colorData.color = overlayColor;
							if (overlayData.colorData.channelAdditiveMask.Length > 2)
							{
								overlayData.colorData.channelAdditiveMask[2] = Shine;
							}
							else
							{
								break;
							}
							break;
						case UMACrowdRandomSet.OverlayType.Random:
							{
								float randomShine = Random.Range(0.05f, 0.25f);
								float randomMetal = Random.Range(0.1f, 0.3f);

								overlayColor = new Color(Random.Range(overlay.minRGB.r, overlay.maxRGB.r), Random.Range(overlay.minRGB.g, overlay.maxRGB.g), Random.Range(overlay.minRGB.b, overlay.maxRGB.b), Random.Range(overlay.minRGB.a, overlay.maxRGB.a));
								overlayData.colorData.color = overlayColor;
								if (overlayData.colorData.channelAdditiveMask.Length > 2)
								{
									overlayData.colorData.channelAdditiveMask[2] = new Color(randomMetal, randomMetal, randomMetal, randomShine);
								}
							}
							break;
						default:
							Debug.LogError("Unknown RandomSet overlayType: "+((int)overlay.overlayType));
							overlayColor = overlay.minRGB;
							overlayData.colorData.color = overlayColor;
							break;
					}
		
					slotData.AddOverlay(overlayData);
					if (overlay.colorChannelUse != ChannelUse.None)
					{
						overlayColor.a *= overlay.minRGB.a;
						if (overlay.colorChannelUse == ChannelUse.InverseColor)
						{
							Vector3 color = new Vector3(overlayColor.r, overlayColor.g, overlayColor.b);
							var len = color.magnitude;
							if (len < 1f) len = 1f;
							color = new Vector3(1.001f, 1.001f, 1.001f) - color;
							color = color.normalized* len;
							overlayColor = new Color(color.x, color.y, color.z, overlayColor.a);
						}
						overlayData.SetColor(overlay.colorChannel, overlayColor);
					}
				}
			}
		}

19 View Source File : ActionCommandManager.cs
License : MIT License
Project Creator : actions

public override void Initialize(IHostContext hostContext)
        {
            base.Initialize(hostContext);

            _registeredCommands.Add(_stopCommand);

            // Register all command extensions
            var extensionManager = hostContext.GetService<IExtensionManager>();
            foreach (var commandExt in extensionManager.GetExtensions<IActionCommandExtension>() ?? new List<IActionCommandExtension>())
            {
                Trace.Info($"Register action command extension for command {commandExt.Command}");
                _commandExtensions[commandExt.Command] = commandExt;
                if (commandExt.Command != "internal-set-repo-path")
                {
                    _registeredCommands.Add(commandExt.Command);
                }
            }
        }

19 View Source File : CelesteNetEmojiComponent.cs
License : MIT License
Project Creator : 0x0ade

public void Handle(CelesteNetConnection con, DataNetEmoji netemoji) {
            Logger.Log(LogLevel.VVV, "netemoji", $"Received {netemoji.ID}");

            string dir = Path.Combine(Path.GetTempPath(), "CelesteNetClientEmojiCache");
            if (!Directory.Exists(dir))
                Directory.CreateDirectory(dir);

            string path = Path.Combine(dir, $"{netemoji.ID}-{netemoji.GetHashCode():X8}.png");
            using (FileStream fs = File.OpenWrite(path))
            using (MemoryStream ms = new(netemoji.Data))
                ms.CopyTo(fs);

            RunOnMainThread(() => {
                Logger.Log(LogLevel.VVV, "netemoji", $"Registering {netemoji.ID}");

                bool registered = false;

                try {
                    VirtualTexture vt = VirtualContent.CreateTexture(path);
                    MTexture mt = new(vt);
                    if (vt.Texture_Safe == null) // Needed to trigger lazy loading.
                        throw new Exception($"Couldn't load emoji {netemoji.ID}");

                    Registered.Add(netemoji.ID);
                    RegisteredFiles.Add(path);
                    Emoji.Register(netemoji.ID, mt);
                    Emoji.Fill(CelesteNetClientFont.Font);
                    registered = true;

                } finally {
                    if (!registered)
                        File.Delete(path);
                }
            });
        }

19 View Source File : TemplateEvaluator.cs
License : MIT License
Project Creator : actions

internal static TemplateToken Evaluate(
            TemplateContext context,
            String type,
            TemplateToken template,
            Int32 removeBytes,
            Int32? fileId,
            Boolean omitHeader = false)
        {
            TemplateToken result;

            if (!omitHeader)
            {
                if (fileId != null)
                {
                    context.TraceWriter.Info("{0}", $"Begin evaluating template '{context.GetFileName(fileId.Value)}'");
                }
                else
                {
                    context.TraceWriter.Info("{0}", "Begin evaluating template");
                }
            }

            var evaluator = new TemplateEvaluator(context, template, removeBytes);
            try
            {
                var availableContext = new HashSet<String>(StringComparer.OrdinalIgnoreCase);
                foreach (var key in context.ExpressionValues.Keys)
                {
                    availableContext.Add(key);
                }
                foreach (var function in context.ExpressionFunctions)
                {
                    availableContext.Add($"{function.Name}()");
                }

                var definitionInfo = new DefinitionInfo(context.Schema, type, availableContext);
                result = evaluator.Evaluate(definitionInfo);

                if (result != null)
                {
                    evaluator.m_unraveler.ReadEnd();
                }
            }
            catch (Exception ex)
            {
                context.Error(fileId, null, null, ex);
                result = null;
            }

            if (!omitHeader)
            {
                if (fileId != null)
                {
                    context.TraceWriter.Info("{0}", $"Finished evaluating template '{context.GetFileName(fileId.Value)}'");
                }
                else
                {
                    context.TraceWriter.Info("{0}", "Finished evaluating template");
                }
            }

            return result;
        }

19 View Source File : ExampleSourceCodeFormattingConverter.cs
License : MIT License
Project Creator : ABTSoftware

public object Convert(object value, Type targetType, object parameter, CultureInfo culture)
        {
            if (MainWindowViewModel.SearchText.IsNullOrEmpty())
            {
                return string.Empty;
            }

            var terms = MainWindowViewModel.SearchText.Split(' ').Where(word => word != "").Select(x => x.ToLower()).ToArray();
            var codeFiles = (Dictionary<string, string>) value;

            var uiCodeFiles = codeFiles.Where(x => x.Key.EndsWith(".xaml"));

            var lines = new List<string>();
            foreach (var file in uiCodeFiles)
            {
                lines.AddRange(file.Value.Split(new[] {"\r\n"}, StringSplitOptions.None));
            }

            var toHighlight = new HashSet<string>();
            foreach (var term in terms)
            {
                var containsTerm = lines.Where(x => x != "" && x.ToLower().Contains(term));
                containsTerm.Take(2).Select(x => x.Trim()).ForEachDo(x => toHighlight.Add(x));
            }

            string result;

            if (toHighlight.Any())
            {
                lines = toHighlight.Take(2).Select(x => x.Trim().Replace('<', ' ').Replace('>', ' ') + '.').ToList();
                result = HighlightText(lines, terms);
            }
            else
            {
                var sentences = lines.Take(2).Select(x => string.Format("... {0} ...", x.Trim().Replace('<', ' ').Replace('>', ' ').ToList()));
                result = string.Join("\n", sentences);
            }

            return result;
        }

19 View Source File : Module.cs
License : MIT License
Project Creator : ABTSoftware

private void InitializeExamplesAndPages(IEnumerable<ExampleDefinition> exampleDefinitions)
        {
            AppPage appPage;
            HashSet<string> categories = new HashSet<string>();
            foreach (var definition in exampleDefinitions)
            {
                appPage = new ExampleAppPage(definition.replacedle ,definition.ViewModel, definition.View);
                ChartingPages.Add(appPage.PageId, appPage);

                var example = new Example(appPage, definition) {SelectCommand = NavigateToExample};

                _examples.Add(appPage.PageId, example);
                categories.Add(example.TopLevelCategory);
            }

            _allCategories = new ReadOnlyCollection<string>(categories.ToList());
            _groupsByCategory = new Dictionary<string, ReadOnlyCollection<string>>();
            foreach (var category in _allCategories)
            {
                var groups = _examples.Where(ex => ex.Value.TopLevelCategory == category).Select(y => y.Value.Group).Distinct().ToList();
                _groupsByCategory.Add(category, new ReadOnlyCollection<string>(groups));
            }

            appPage = new HomeAppPage();
            ChartingPages.Add(appPage.PageId, appPage);

            appPage = new EverythingAppPage();
            ChartingPages.Add(appPage.PageId, appPage);

            appPage = new ExamplesHostAppPage();
            ChartingPages.Add(appPage.PageId, appPage);
        }

19 View Source File : StringMap.cs
License : MIT License
Project Creator : 0x0ade

public void CountRead(string value) {
            if (value.Length <= MinLength)
                return;

            lock (Pending) {
                if (MappedRead.Contains(value) || Pending.Contains(value))
                    return;

                if (!Counting.TryGetValue(value, out int count))
                    count = 0;
                if (++count >= PromotionCount) {
                    Counting.Remove(value);
                    Pending.Add(value);
                } else {
                    Counting[value] = count;
                }

                if (Counting.Count >= MaxCounting)
                    Cleanup();
            }
        }

19 View Source File : FeatureBuilder.cs
License : Apache License 2.0
Project Creator : acblog

public FeatureBuilder AddFeature(params string[] names)
        {
            foreach (var name in names)
            {
                if (!name.Contains(','))
                {
                    Inner.Add(name);
                }
                else
                {
                    throw new Exception($"Invalid feature name: {name}.");
                }
            }
            return this;
        }

19 View Source File : FuzzerShould.cs
License : Apache License 2.0
Project Creator : 42skillz

public HotelGroupBuilder WithHotelIn(string city)
        {
            _cities.Add(city);

            return this;
        }

19 View Source File : CommandLineParser.cs
License : MIT License
Project Creator : actions

public void Parse(string[] args)
        {
            _trace.Info(nameof(Parse));
            ArgUtil.NotNull(args, nameof(args));
            _trace.Info("Parsing {0} args", args.Length);

            string argScope = null;
            foreach (string arg in args)
            {
                _trace.Info("parsing argument");

                HasArgs = HasArgs || arg.StartsWith("--");
                _trace.Info("HasArgs: {0}", HasArgs);

                if (string.Equals(arg, "/?", StringComparison.Ordinal))
                {
                    Flags.Add("help");
                }
                else if (!HasArgs)
                {
                    _trace.Info("Adding Command: {0}", arg);
                    Commands.Add(arg.Trim());
                }
                else
                {
                    // it's either an arg, an arg value or a flag
                    if (arg.StartsWith("--") && arg.Length > 2)
                    {
                        string argVal = arg.Substring(2);
                        _trace.Info("arg: {0}", argVal);

                        // this means two --args in a row which means previous was a flag
                        if (argScope != null)
                        {
                            _trace.Info("Adding flag: {0}", argScope);
                            Flags.Add(argScope.Trim());
                        }

                        argScope = argVal;
                    }
                    else if (!arg.StartsWith("-"))
                    {
                        // we found a value - check if we're in scope of an arg
                        if (argScope != null && !Args.ContainsKey(argScope = argScope.Trim()))
                        {
                            if (SecretArgNames.Contains(argScope))
                            {
                                _secretMasker.AddValue(arg);
                            }

                            _trace.Info("Adding option '{0}': '{1}'", argScope, arg);
                            // ignore duplicates - first wins - below will be val1
                            // --arg1 val1 --arg1 val1
                            Args.Add(argScope, arg);
                            argScope = null;
                        }
                    }
                    else
                    {
                        //
                        // ignoring the second value for an arg (val2 below) 
                        // --arg val1 val2

                        // ignoring invalid things like empty - and --
                        // --arg val1 -- --flag
                        _trace.Info("Ignoring arg");
                    }
                }
            }

            _trace.Verbose("done parsing arguments");

            // handle last arg being a flag
            if (argScope != null)
            {
                Flags.Add(argScope);
            }

            _trace.Verbose("Exiting parse");
        }

19 View Source File : KeywordCollectionBuilder.cs
License : Apache License 2.0
Project Creator : acblog

public static async Task<KeywordCollection> Build(IAsyncEnumerable<Keyword> data, CancellationToken cancellationToken = default)
        {
            HashSet<string> res = new HashSet<string>();
            await foreach (var v in data)
            {
                cancellationToken.ThrowIfCancellationRequested();
                List<string> keyids = new List<string>();
                foreach (var k in v.Items)
                {
                    res.Add(k);
                }
            }
            return new KeywordCollection(res.Select(pair => new Keyword { Items = new string[] { pair } }).ToList());
        }

19 View Source File : MultiTenantMigrateExecuter.cs
License : MIT License
Project Creator : 52ABP

public bool Run(bool skipConnVerification)
        {
            var hostConnStr = CensorConnectionString(_connectionStringResolver.GetNameOrConnectionString(new ConnectionStringResolveArgs(MulreplacedenancySides.Host)));
            if (hostConnStr.IsNullOrWhiteSpace())
            {
                _log.Write("Configuration file should contain a connection string named 'Default'");
                return false;
            }

            _log.Write("Host database: " + ConnectionStringHelper.GetConnectionString(hostConnStr));
            if (!skipConnVerification)
            {
                _log.Write("Continue to migration for this host database and all tenants..? (Y/N): ");
                var command = Console.ReadLine();
                if (!command.IsIn("Y", "y"))
                {
                    _log.Write("Migration canceled.");
                    return false;
                }
            }

            _log.Write("HOST database migration started...");

            try
            {
                _migrator.CreateOrMigrateForHost(SeedHelper.SeedHostDb);
            }
            catch (Exception ex)
            {
                _log.Write("An error occured during migration of host database:");
                _log.Write(ex.ToString());
                _log.Write("Canceled migrations.");
                return false;
            }

            _log.Write("HOST database migration completed.");
            _log.Write("--------------------------------------------------------");

            var migratedDatabases = new HashSet<string>();
            var tenants = _tenantRepository.GetAllList(t => t.ConnectionString != null && t.ConnectionString != "");
            for (var i = 0; i < tenants.Count; i++)
            {
                var tenant = tenants[i];
                _log.Write(string.Format("Tenant database migration started... ({0} / {1})", (i + 1), tenants.Count));
                _log.Write("Name              : " + tenant.Name);
                _log.Write("TenancyName       : " + tenant.TenancyName);
                _log.Write("Tenant Id         : " + tenant.Id);
                _log.Write("Connection string : " + SimpleStringCipher.Instance.Decrypt(tenant.ConnectionString));

                if (!migratedDatabases.Contains(tenant.ConnectionString))
                {
                    try
                    {
                        _migrator.CreateOrMigrateForTenant(tenant);
                    }
                    catch (Exception ex)
                    {
                        _log.Write("An error occured during migration of tenant database:");
                        _log.Write(ex.ToString());
                        _log.Write("Skipped this tenant and will continue for others...");
                    }

                    migratedDatabases.Add(tenant.ConnectionString);
                }
                else
                {
                    _log.Write("This database has already migrated before (you have more than one tenant in same database). Skipping it....");
                }

                _log.Write(string.Format("Tenant database migration completed. ({0} / {1})", (i + 1), tenants.Count));
                _log.Write("--------------------------------------------------------");
            }

            _log.Write("All databases have been migrated.");

            return true;
        }

19 View Source File : ActionRunner.cs
License : MIT License
Project Creator : actions

public async Task RunAsync()
        {
            // Validate args.
            Trace.Entering();
            ArgUtil.NotNull(ExecutionContext, nameof(ExecutionContext));
            ArgUtil.NotNull(Action, nameof(Action));
            var taskManager = HostContext.GetService<IActionManager>();
            var handlerFactory = HostContext.GetService<IHandlerFactory>();

            // Load the task definition and choose the handler.
            Definition definition = taskManager.LoadAction(ExecutionContext, Action);
            ArgUtil.NotNull(definition, nameof(definition));

            ActionExecutionData handlerData = definition.Data?.Execution;
            ArgUtil.NotNull(handlerData, nameof(handlerData));

            List<JobExtensionRunner> localActionContainerSetupSteps = null;
            // Handle Composite Local Actions
            // Need to download and expand the tree of referenced actions
            if (handlerData.ExecutionType == ActionExecutionType.Composite &&
                handlerData is CompositeActionExecutionData compositeHandlerData &&
                Stage == ActionRunStage.Main &&
                Action.Reference is Pipelines.RepositoryPathReference localAction &&
                string.Equals(localAction.RepositoryType, Pipelines.PipelineConstants.SelfAlias, StringComparison.OrdinalIgnoreCase))
            {
                var actionManager = HostContext.GetService<IActionManager>();
                var prepareResult = await actionManager.PrepareActionsAsync(ExecutionContext, compositeHandlerData.Steps, ExecutionContext.Id);

                // Reload definition since post may exist now (from embedded steps that were JIT downloaded)
                definition = taskManager.LoadAction(ExecutionContext, Action);
                ArgUtil.NotNull(definition, nameof(definition));
                handlerData = definition.Data?.Execution;
                ArgUtil.NotNull(handlerData, nameof(handlerData));

                // Save container setup steps so we can reference them later
                localActionContainerSetupSteps = prepareResult.ContainerSetupSteps;
            }

            if (handlerData.HasPre &&
                Action.Reference is Pipelines.RepositoryPathReference repoAction &&
                string.Equals(repoAction.RepositoryType, Pipelines.PipelineConstants.SelfAlias, StringComparison.OrdinalIgnoreCase))
            {
                ExecutionContext.Warning($"`pre` execution is not supported for local action from '{repoAction.Path}'");
            }

            // The action has post cleanup defined.
            // we need to create timeline record for them and add them to the step list that StepRunner is using
            if (handlerData.HasPost && (Stage == ActionRunStage.Pre || Stage == ActionRunStage.Main))
            {
                string postDisplayName = $"Post {this.DisplayName}";
                if (Stage == ActionRunStage.Pre &&
                    this.DisplayName.StartsWith("Pre ", StringComparison.OrdinalIgnoreCase))
                {
                    // Trim the leading `Pre ` from the display name.
                    // Otherwise, we will get `Post Pre xxx` as DisplayName for the Post step.
                    postDisplayName = $"Post {this.DisplayName.Substring("Pre ".Length)}";
                }
                var repositoryReference = Action.Reference as RepositoryPathReference;
                var pathString = string.IsNullOrEmpty(repositoryReference.Path) ? string.Empty : $"/{repositoryReference.Path}";
                var repoString = string.IsNullOrEmpty(repositoryReference.Ref) ? $"{repositoryReference.Name}{pathString}" :
                    $"{repositoryReference.Name}{pathString}@{repositoryReference.Ref}";

                ExecutionContext.Debug($"Register post job cleanup for action: {repoString}");

                var actionRunner = HostContext.CreateService<IActionRunner>();
                actionRunner.Action = Action;
                actionRunner.Stage = ActionRunStage.Post;
                actionRunner.Condition = handlerData.CleanupCondition;
                actionRunner.DisplayName = postDisplayName;

                ExecutionContext.RegisterPostJobStep(actionRunner);
            }

            IStepHost stepHost = HostContext.CreateService<IDefaultStepHost>();

            // Makes directory for event_path data
            var tempDirectory = HostContext.GetDirectory(WellKnownDirectory.Temp);
            var workflowDirectory = Path.Combine(tempDirectory, "_github_workflow");
            Directory.CreateDirectory(workflowDirectory);

            var gitHubEvent = ExecutionContext.GetGitHubContext("event");

            // adds the GitHub event path/file if the event exists
            if (gitHubEvent != null)
            {
                var workflowFile = Path.Combine(workflowDirectory, "event.json");
                Trace.Info($"Write event payload to {workflowFile}");
                File.WriteAllText(workflowFile, gitHubEvent, new UTF8Encoding(false));
                ExecutionContext.SetGitHubContext("event_path", workflowFile);
            }

            // Set GITHUB_ACTION_REPOSITORY if this Action is from a repository
            if (Action.Reference is Pipelines.RepositoryPathReference repoPathReferenceAction &&
                !string.Equals(repoPathReferenceAction.RepositoryType, Pipelines.PipelineConstants.SelfAlias, StringComparison.OrdinalIgnoreCase))
            {
                ExecutionContext.SetGitHubContext("action_repository", repoPathReferenceAction.Name);
                ExecutionContext.SetGitHubContext("action_ref", repoPathReferenceAction.Ref);
            }
            else
            {
                ExecutionContext.SetGitHubContext("action_repository", null);
                ExecutionContext.SetGitHubContext("action_ref", null);
            }

            // Setup container stephost for running inside the container.
            if (ExecutionContext.Global.Container != null)
            {
                // Make sure required container is already created.
                ArgUtil.NotNullOrEmpty(ExecutionContext.Global.Container.ContainerId, nameof(ExecutionContext.Global.Container.ContainerId));
                var containerStepHost = HostContext.CreateService<IContainerStepHost>();
                containerStepHost.Container = ExecutionContext.Global.Container;
                stepHost = containerStepHost;
            }

            // Setup File Command Manager
            var fileCommandManager = HostContext.CreateService<IFileCommandManager>();
            fileCommandManager.InitializeFiles(ExecutionContext, null);

            // Load the inputs.
            ExecutionContext.Debug("Loading inputs");
            var templateEvaluator = ExecutionContext.ToPipelineTemplateEvaluator();
            var inputs = templateEvaluator.EvaluateStepInputs(Action.Inputs, ExecutionContext.ExpressionValues, ExecutionContext.ExpressionFunctions);

            var userInputs = new HashSet<string>(StringComparer.OrdinalIgnoreCase);
            foreach (KeyValuePair<string, string> input in inputs)
            {
                userInputs.Add(input.Key);
                string message = "";
                if (definition.Data?.Deprecated?.TryGetValue(input.Key, out message) == true)
                {
                    ExecutionContext.Warning(String.Format("Input '{0}' has been deprecated with message: {1}", input.Key, message));
                }
            }

            var validInputs = new HashSet<string>(StringComparer.OrdinalIgnoreCase);
            if (handlerData.ExecutionType == ActionExecutionType.Container)
            {
                // container action always accept 'entryPoint' and 'args' as inputs
                // https://help.github.com/en/actions/reference/workflow-syntax-for-github-actions#jobsjob_idstepswithargs
                validInputs.Add("entryPoint");
                validInputs.Add("args");
            }
            // Merge the default inputs from the definition
            if (definition.Data?.Inputs != null)
            {
                var manifestManager = HostContext.GetService<IActionManifestManager>();
                foreach (var input in definition.Data.Inputs)
                {
                    string key = input.Key.replacedertString("action input name").Value;
                    validInputs.Add(key);
                    if (!inputs.ContainsKey(key))
                    {
                        inputs[key] = manifestManager.EvaluateDefaultInput(ExecutionContext, key, input.Value);
                    }
                }
            }

            // Validate inputs only for actions with action.yml
            if (Action.Reference.Type == Pipelines.ActionSourceType.Repository)
            {
                var unexpectedInputs = new List<string>();
                foreach (var input in userInputs)
                {
                    if (!validInputs.Contains(input))
                    {
                        unexpectedInputs.Add(input);
                    }
                }

                if (unexpectedInputs.Count > 0)
                {
                    ExecutionContext.Warning($"Unexpected input(s) '{string.Join("', '", unexpectedInputs)}', valid inputs are ['{string.Join("', '", validInputs)}']");
                }
            }

            // Load the action environment.
            ExecutionContext.Debug("Loading env");
            var environment = new Dictionary<String, String>(VarUtil.EnvironmentVariableKeyComparer);

#if OS_WINDOWS
            var envContext = ExecutionContext.ExpressionValues["env"] as DictionaryContextData;
#else
            var envContext = ExecutionContext.ExpressionValues["env"] as CaseSensitiveDictionaryContextData;
#endif
            // Apply environment from env context, env context contains job level env and action's evn block
            foreach (var env in envContext)
            {
                environment[env.Key] = env.Value.ToString();
            }

            // Apply action's intra-action state at last
            foreach (var state in ExecutionContext.IntraActionState)
            {
                environment[$"STATE_{state.Key}"] = state.Value ?? string.Empty;
            }

            // Create the handler.
            IHandler handler = handlerFactory.Create(
                            ExecutionContext,
                            Action.Reference,
                            stepHost,
                            handlerData,
                            inputs,
                            environment,
                            ExecutionContext.Global.Variables,
                            actionDirectory: definition.Directory,
                            localActionContainerSetupSteps: localActionContainerSetupSteps);

            // Print out action details
            handler.PrintActionDetails(Stage);

            // Run the task.
            try
            {
                await handler.RunAsync(Stage);
            }
            finally
            {
                fileCommandManager.ProcessFiles(ExecutionContext, ExecutionContext.Global.Container);
            }

        }

19 View Source File : StringMap.cs
License : MIT License
Project Creator : 0x0ade

public void Cleanup() {
            lock (Pending) {
                foreach (KeyValuePair<string, int> entry in Counting) {
                    int score = entry.Value - DemotionScore;
                    if (score <= 0) {
                        CountingUpdateKeys.Add(entry.Key);
                        CountingUpdateValues.Add(0);
                    } else if (score >= PromotionTreshold) {
                        CountingUpdateKeys.Add(entry.Key);
                        CountingUpdateValues.Add(0);
                        Pending.Add(entry.Key);
                    } else {
                        CountingUpdateKeys.Add(entry.Key);
                        CountingUpdateValues.Add(score);
                    }
                }
                for (int i = 0; i < CountingUpdateKeys.Count; i++) {
                    string key = CountingUpdateKeys[i];
                    int value = CountingUpdateValues[i];
                    if (value == 0)
                        Counting.Remove(key);
                    else
                        Counting[key] = value;
                }
                CountingUpdateKeys.Clear();
                CountingUpdateValues.Clear();
            }
        }

19 View Source File : ExecutionContext.cs
License : MIT License
Project Creator : actions

public void AddMatchers(IssueMatchersConfig config)
        {
            var root = Root;

            // Lock
            lock (root._matchersLock)
            {
                var newMatchers = new List<IssueMatcherConfig>();

                // Prepend
                var newOwners = new HashSet<string>(StringComparer.OrdinalIgnoreCase);
                foreach (var matcher in config.Matchers)
                {
                    newOwners.Add(matcher.Owner);
                    newMatchers.Add(matcher);
                }

                // Add existing non-matching
                var existingMatchers = root._matchers ?? Array.Empty<IssueMatcherConfig>();
                newMatchers.AddRange(existingMatchers.Where(x => !newOwners.Contains(x.Owner)));

                // Store
                root._matchers = newMatchers.ToArray();

                // Fire events
                foreach (var matcher in config.Matchers)
                {
                    root._onMatcherChanged(null, new MatcherChangedEventArgs(matcher));
                }

                // Output
                var owners = config.Matchers.Select(x => $"'{x.Owner}'");
                var joinedOwners = string.Join(", ", owners);
                // todo: loc
                this.Debug($"Added matchers: {joinedOwners}. Problem matchers scan action output for known warning or error strings and report these inline.");
            }
        }

19 View Source File : UnityARUserAnchorExample.cs
License : MIT License
Project Creator : 734843327

void Update () {
		if (Input.touchCount > 0 && Input.GetTouch(0).phase == TouchPhase.Began)
		{
			GameObject clone = Instantiate(prefabObject, Camera.main.transform.position + (this.distanceFromCamera * Camera.main.transform.forward), Quaternion.idenreplacedy);
			UnityARUserAnchorComponent component = clone.GetComponent<UnityARUserAnchorComponent>();
			m_Clones.Add(component.AnchorId);
			m_TimeUntilRemove = 4.0f;
		}

		// just remove anchors afte a certain amount of time for example's sake.
		m_TimeUntilRemove -= Time.deltaTime;
		if (m_TimeUntilRemove <= 0.0f)
		{
            foreach (string id in m_Clones)
            {
                Console.WriteLine("Removing anchor with id: " + id);
                UnityARSessionNativeInterface.GetARSessionNativeInterface().RemoveUserAnchor(id);
                break;
            }
            m_TimeUntilRemove = 4.0f;
		}
	}

19 View Source File : PipelineTemplateEvaluator.cs
License : MIT License
Project Creator : actions

private TemplateContext CreateContext(
            DictionaryContextData contextData,
            IList<IFunctionInfo> expressionFunctions,
            IEnumerable<KeyValuePair<String, Object>> expressionState = null)
        {
            var result = new TemplateContext
            {
                CancellationToken = CancellationToken.None,
                Errors = new TemplateValidationErrors(MaxErrors, MaxErrorMessageLength),
                Memory = new TemplateMemory(
                    maxDepth: MaxDepth,
                    maxEvents: MaxEvents,
                    maxBytes: MaxResultSize),
                Schema = m_schema,
                TraceWriter = m_trace,
            };

            // Add the file table
            if (m_fileTable?.Count > 0)
            {
                foreach (var file in m_fileTable)
                {
                    result.GetFileId(file);
                }
            }

            // Add named values
            if (contextData != null)
            {
                foreach (var pair in contextData)
                {
                    result.ExpressionValues[pair.Key] = pair.Value;
                }
            }

            // Add functions
            var functionNames = new HashSet<String>(StringComparer.OrdinalIgnoreCase);
            if (expressionFunctions?.Count > 0)
            {
                foreach (var function in expressionFunctions)
                {
                    result.ExpressionFunctions.Add(function);
                    functionNames.Add(function.Name);
                }
            }

            // Add missing expression values and expression functions.
            // This solves the following problems:
            //   - Compat for new agent against old server (new contexts not sent down in job message)
            //   - Evaluating early when all referenced contexts are available, even though all allowed
            //     contexts may not yet be available. For example, evaluating step display name can often
            //     be performed early.
            foreach (var name in s_expressionValueNames)
            {
                if (!result.ExpressionValues.ContainsKey(name))
                {
                    result.ExpressionValues[name] = null;
                }
            }
            foreach (var name in s_expressionFunctionNames)
            {
                if (!functionNames.Contains(name))
                {
                    result.ExpressionFunctions.Add(new FunctionInfo<NoOperation>(name, 0, Int32.MaxValue));
                }
            }

            // Add state
            if (expressionState != null)
            {
                foreach (var pair in expressionState)
                {
                    result.State[pair.Key] = pair.Value;
                }
            }

            return result;
        }

19 View Source File : CelesteNetEmojiComponent.cs
License : MIT License
Project Creator : 0x0ade

public void Handle(CelesteNetConnection con, DataNetEmoji netemoji) {
            Logger.Log(LogLevel.VVV, "netemoji", $"Received {netemoji.ID}");

            string dir = Path.Combine(Path.GetTempPath(), "CelesteNetClientEmojiCache");
            if (!Directory.Exists(dir))
                Directory.CreateDirectory(dir);

            string path = Path.Combine(dir, $"{netemoji.ID}-{netemoji.GetHashCode():X8}.png");
            using (FileStream fs = File.OpenWrite(path))
            using (MemoryStream ms = new(netemoji.Data))
                ms.CopyTo(fs);

            RunOnMainThread(() => {
                Logger.Log(LogLevel.VVV, "netemoji", $"Registering {netemoji.ID}");

                bool registered = false;

                try {
                    VirtualTexture vt = VirtualContent.CreateTexture(path);
                    MTexture mt = new(vt);
                    if (vt.Texture_Safe == null) // Needed to trigger lazy loading.
                        throw new Exception($"Couldn't load emoji {netemoji.ID}");

                    Registered.Add(netemoji.ID);
                    RegisteredFiles.Add(path);
                    Emoji.Register(netemoji.ID, mt);
                    Emoji.Fill(CelesteNetClientFont.Font);
                    registered = true;

                } finally {
                    if (!registered)
                        File.Delete(path);
                }
            });
        }

19 View Source File : ReferenceNameBuilder.cs
License : MIT License
Project Creator : actions

internal Boolean TryAddKnownName(
            String value,
            out String error)
        {
            if (!NameValidation.IsValid(value, allowHyphens: true) && value.Length < PipelineConstants.MaxNodeNameLength)
            {
                error = $"The identifier '{value}' is invalid. IDs may only contain alphanumeric characters, '_', and '-'. IDs must start with a letter or '_' and and must be less than {PipelineConstants.MaxNodeNameLength} characters.";
                return false;
            }
            else if (!m_distinctNames.Add(value))
            {
                error = $"The identifier '{value}' may not be used more than once within the same scope.";
                return false;
            }
            else
            {
                error = null;
                return true;
            }
        }

19 View Source File : TfsLogWriter.cs
License : MIT License
Project Creator : aabiryukov

private static bool CreateGourceLogFile(
			string outputFile,
			HashSet<string> outputCommiters,
            VersionControlServer vcs,
			string serverPath,
			VisualizationSettings settings,
            ref bool cancel,
			Action<int> progressReporter)
		{
//			int latestChangesetId = vcs.GetLatestChangesetId();
            if (cancel) return false;

            var versionFrom = new DateVersionSpec(settings.DateFrom);
            var versionTo = new DateVersionSpec(settings.DateTo);

            int latestChangesetId;
            // Getting latest changeset ID for current search criteria
		    {
                var latestChanges = vcs.QueryHistory(
                    serverPath,
                    VersionSpec.Latest,
                    0,
                    RecursionType.Full,
                    null, //any user
                    versionFrom, // from first changeset
                    versionTo, // to last changeset
                    1,
                    false, // with changes
                    false,
                    false,
                    false); // sorted

		        var latestChangeset = latestChanges.Cast<Changeset>().FirstOrDefault();
                if (latestChangeset == null)
                {
                    // History not found
                    return false;
                }
                latestChangesetId = latestChangeset.ChangesetId;
                if (cancel) return false; //-V3022
            }

		    var firstChangesetId = 0;

	        var changesetConverter = new ChangesetConverter(settings.UsersFilter, settings.FilesFilter);

			using (var writer = new StreamWriter(outputFile))
			{
				var csList = vcs.QueryHistory(
					serverPath,
					VersionSpec.Latest,
					0,
					RecursionType.Full,
					null, //any user
                    versionFrom, // from first changeset
                    versionTo, // to last changeset
					int.MaxValue,
					true, // with changes
					false,
					false,
					true); // sorted

				var hasLines = false;

				foreach (var changeset in csList.Cast<Changeset>())
                {
                    if (cancel) return false; //-V3022

                    if (firstChangesetId == 0) firstChangesetId = changeset.ChangesetId;

                    if (progressReporter != null)
                    {
                        var progressValue = changeset.ChangesetId - firstChangesetId;
                        var progressTotal = latestChangesetId - firstChangesetId;

                        progressReporter(progressTotal > 0 ? progressValue * 100 / progressTotal : 100);
                    }

	                var usefulChangeset = false;
					foreach (var line in changesetConverter.GetLogLines(changeset))
					{
						usefulChangeset = true;
                        writer.WriteLine(line);
                    }

	                if (usefulChangeset)
	                {
		                hasLines = true;
		                if (outputCommiters != null)
			                outputCommiters.Add(changeset.OwnerDisplayName);
	                }
                }

				return hasLines;
			}
		}

19 View Source File : TemplateReader.cs
License : MIT License
Project Creator : actions

private void HandleMappingWithWellKnownProperties(
            DefinitionInfo definition,
            List<MappingDefinition> mappingDefinitions,
            MappingToken mapping)
        {
            // Check if loose properties are allowed
            String looseKeyType = null;
            String looseValueType = null;
            DefinitionInfo? looseKeyDefinition = null;
            DefinitionInfo? looseValueDefinition = null;
            if (!String.IsNullOrEmpty(mappingDefinitions[0].LooseKeyType))
            {
                looseKeyType = mappingDefinitions[0].LooseKeyType;
                looseValueType = mappingDefinitions[0].LooseValueType;
            }

            var keys = new HashSet<String>(StringComparer.OrdinalIgnoreCase);
            var hasExpressionKey = false;

            while (m_objectReader.AllowLiteral(out LiteralToken rawLiteral))
            {
                var nextKeyScalar = ParseScalar(rawLiteral, definition.AllowedContext);
                // Expression
                if (nextKeyScalar is ExpressionToken)
                {
                    hasExpressionKey = true;
                    // Legal
                    if (definition.AllowedContext.Length > 0)
                    {
                        m_memory.AddBytes(nextKeyScalar);
                        var anyDefinition = new DefinitionInfo(definition, TemplateConstants.Any);
                        mapping.Add(nextKeyScalar, ReadValue(anyDefinition));
                    }
                    // Illegal
                    else
                    {
                        m_context.Error(nextKeyScalar, TemplateStrings.ExpressionNotAllowed());
                        SkipValue();
                    }

                    continue;
                }

                // Not a string, convert
                if (!(nextKeyScalar is StringToken nextKey))
                {
                    nextKey = new StringToken(nextKeyScalar.FileId, nextKeyScalar.Line, nextKeyScalar.Column, nextKeyScalar.ToString());
                }

                // Duplicate
                if (!keys.Add(nextKey.Value))
                {
                    m_context.Error(nextKey, TemplateStrings.ValueAlreadyDefined(nextKey.Value));
                    SkipValue();
                    continue;
                }

                // Well known
                if (m_schema.TryMatchKey(mappingDefinitions, nextKey.Value, out String nextValueType))
                {
                    m_memory.AddBytes(nextKey);
                    var nextValueDefinition = new DefinitionInfo(definition, nextValueType);
                    var nextValue = ReadValue(nextValueDefinition);
                    mapping.Add(nextKey, nextValue);
                    continue;
                }

                // Loose
                if (looseKeyType != null)
                {
                    if (looseKeyDefinition == null)
                    {
                        looseKeyDefinition = new DefinitionInfo(definition, looseKeyType);
                        looseValueDefinition = new DefinitionInfo(definition, looseValueType);
                    }

                    Validate(nextKey, looseKeyDefinition.Value);
                    m_memory.AddBytes(nextKey);
                    var nextValue = ReadValue(looseValueDefinition.Value);
                    mapping.Add(nextKey, nextValue);
                    continue;
                }

                // Error
                m_context.Error(nextKey, TemplateStrings.UnexpectedValue(nextKey.Value));
                SkipValue();
            }

            // Only one
            if (mappingDefinitions.Count > 1)
            {
                var hitCount = new Dictionary<String, Int32>();
                foreach (MappingDefinition mapdef in mappingDefinitions)
                {
                    foreach (String key in mapdef.Properties.Keys)
                    {
                        if (!hitCount.TryGetValue(key, out Int32 value))
                        {
                            hitCount.Add(key, 1);
                        }
                        else
                        {
                            hitCount[key] = value + 1;
                        }
                    }
                }

                List<String> nonDuplicates = new List<String>();
                foreach (String key in hitCount.Keys)
                {
                    if(hitCount[key] == 1)
                    {
                        nonDuplicates.Add(key);
                    }
                }
                nonDuplicates.Sort();

                String listToDeDuplicate = String.Join(", ", nonDuplicates);
                m_context.Error(mapping, TemplateStrings.UnableToDetermineOneOf(listToDeDuplicate));
            }
            else if (mappingDefinitions.Count == 1 && !hasExpressionKey)
            {
                foreach (var property in mappingDefinitions[0].Properties)
                {
                    if (property.Value.Required)
                    {
                        if (!keys.Contains(property.Key))
                        {
                            m_context.Error(mapping, $"Required property is missing: {property.Key}");
                        }
                    }
                }
            }
            ExpectMappingEnd();
        }

19 View Source File : FilenameProvider.cs
License : MIT License
Project Creator : 0xd4d

public string GetFilename(uint token, string name) {
			string candidate;
			switch (filenameFormat) {
			case FilenameFormat.MemberName:
				candidate = name;
				break;

			case FilenameFormat.TokenMemberName:
				candidate = token.ToString("X8") + "_" + name;
				break;

			case FilenameFormat.Token:
				candidate = token.ToString("X8");
				break;

			default:
				throw new ArgumentOutOfRangeException(nameof(filenameFormat));
			}

			if (candidate == string.Empty)
				candidate = "<UNKNOWN>";
			candidate = ReplaceInvalidFilenameChars(candidate);
			if (candidate.Length > MAX_NAME_LEN)
				candidate = candidate.Substring(0, MAX_NAME_LEN) + "-";
			if (!usedFilenames.Add(candidate)) {
				for (int i = 1; i < int.MaxValue; i++) {
					var newCand = candidate + "_" + i.ToString();
					if (usedFilenames.Add(newCand)) {
						candidate = newCand;
						break;
					}
				}
			}
			return Path.Combine(outputDir, candidate + extension);
		}

19 View Source File : ActionCommandManager.cs
License : MIT License
Project Creator : actions

public override void Initialize(IHostContext hostContext)
        {
            base.Initialize(hostContext);

            _registeredCommands.Add(_stopCommand);

            // Register all command extensions
            var extensionManager = hostContext.GetService<IExtensionManager>();
            foreach (var commandExt in extensionManager.GetExtensions<IActionCommandExtension>() ?? new List<IActionCommandExtension>())
            {
                Trace.Info($"Register action command extension for command {commandExt.Command}");
                _commandExtensions[commandExt.Command] = commandExt;
                if (commandExt.Command != "internal-set-repo-path")
                {
                    _registeredCommands.Add(commandExt.Command);
                }
            }
        }

19 View Source File : MixedRealityToolkitFiles.cs
License : Apache License 2.0
Project Creator : abist-co-ltd

private static void RegisterFolderToModule(string folderPath, MixedRealityToolkitModuleType module)
        {
            string normalizedFolder = NormalizeSeparators(folderPath);
            if (!mrtkFolders.TryGetValue(module, out HashSet<string> modFolders))
            {
                modFolders = new HashSet<string>();
                mrtkFolders.Add(module, modFolders);
            }

            modFolders.Add(normalizedFolder);
        }

19 View Source File : ActionCommandManager.cs
License : MIT License
Project Creator : actions

public void EnablePluginInternalCommand()
        {
            Trace.Info($"Enable plugin internal command extension.");
            _registeredCommands.Add("internal-set-repo-path");
        }

19 View Source File : CacheManager.cs
License : MIT License
Project Creator : 0ffffffffh

internal static bool AddKey(KeysetId setId, string key)
        {
            CacheKeySetContext cskc;
            HashSet<string> set;
            
            cskc = GetKeysetContext(setId);

            if (!CacheManager.TryGetCachedResult<HashSet<string>>(cskc.CacheSetKey,out set))
            {
                set = new HashSet<string>();
                set.Add(key);
                CacheManager.CacheObject(cskc.CacheSetKey, set);
            }
            else
            {
                lock (cskc.lck)
                {
                    if (setId.ValidateKeys)
                        CheckSetKeys(set);

                    if (!set.Contains(key))
                        set.Add(key);
                }

                CacheManager.CacheObject(cskc.CacheSetKey, set);
            }

            return true;
        }

19 View Source File : IssueMatcher.cs
License : MIT License
Project Creator : actions

public void Validate()
        {
            var distinctOwners = new HashSet<string>(StringComparer.OrdinalIgnoreCase);

            if (_matchers?.Count > 0)
            {
                foreach (var matcher in _matchers)
                {
                    matcher.Validate();

                    if (!distinctOwners.Add(matcher.Owner))
                    {
                        // Not localized since this is a programming contract
                        throw new ArgumentException($"Duplicate owner name '{matcher.Owner}'");
                    }
                }
            }
        }

19 View Source File : ExampleDescriptionFormattingConverter.cs
License : MIT License
Project Creator : ABTSoftware

public object Convert(object value, Type targetType, object parameter, CultureInfo culture)
        {
            if (MainWindowViewModel.SearchText.IsNullOrEmpty())
            {
                return string.Empty;
            }

            var description = (string)value;
            var result = string.Empty;

            var terms = MainWindowViewModel.SearchText.Split(' ').Where(word => word != "").Select(x => x.ToLower()).ToArray();

            var lines = description.Split(new[] { ". " }, StringSplitOptions.None).ToArray();

            var sentences = new HashSet<string>();
            foreach (var term in terms)
            {
                var containsTerm = lines.Where(x => x != "" && x.ToLower().Contains(term));
                containsTerm.Take(2).ForEachDo(x => sentences.Add(x));
            }

            if (sentences.Any())
            {
                result = HighlightText(sentences.Select(x => x.Trim()).ToArray(), terms);
            }
            else
            {
                foreach (string sentence in lines.Take(2).Select(x => x.Trim()))
                {
                    result = result + (sentence + ". ");
                }
            }

            return result;
        }

19 View Source File : IrdProvider.cs
License : MIT License
Project Creator : 13xforever

public async Task<HashSet<DiscKeyInfo>> EnumerateAsync(string discKeyCachePath, string ProductCode, CancellationToken cancellationToken)
        {
            ProductCode = ProductCode?.ToUpperInvariant();
            var result = new HashSet<DiscKeyInfo>();
            var knownFilenames = new HashSet<string>(StringComparer.InvariantCultureIgnoreCase);
            Log.Trace("Searching local cache for a match...");
            if (Directory.Exists(discKeyCachePath))
            {
                var matchingIrdFiles = Directory.GetFiles(discKeyCachePath, "*.ird", SearchOption.TopDirectoryOnly);
                foreach (var irdFile in matchingIrdFiles)
                {
                    try
                    {
                        try
                        {
                            var ird = IrdParser.Parse(File.ReadAllBytes(irdFile));
                            result.Add(new DiscKeyInfo(ird.Data1, null, irdFile, KeyType.Ird, ird.Crc32.ToString("x8")));
                            knownFilenames.Add(Path.GetFileName(irdFile));
                        }
                        catch (InvalidDataException)
                        {
                            File.Delete(irdFile);
                            continue;
                        }
                        catch (Exception e)
                        {
                            Log.Warn(e);
                            continue;
                        }
                    }
                    catch (Exception e)
                    {
                        Log.Warn(e, e.Message);
                    }
                }
            }

            Log.Trace("Searching IRD Library for match...");
            var irdInfoList = await Client.SearchAsync(ProductCode, cancellationToken).ConfigureAwait(false);
            var irdList = irdInfoList?.Data?.Where(
                              i => !knownFilenames.Contains(i.Filename) && i.Filename.Substring(0, 9).ToUpperInvariant() == ProductCode
                          ).ToList() ?? new List<SearchResulreplacedem>(0);
            if (irdList.Count == 0)
                Log.Debug("No matching IRD file was found in the Library");
            else
            {
                Log.Info($"Found {irdList.Count} new match{(irdList.Count == 1 ? "" : "es")} in the IRD Library");
                foreach (var irdInfo in irdList)
                {
                    var ird = await Client.DownloadAsync(irdInfo, discKeyCachePath, cancellationToken).ConfigureAwait(false);
                    result.Add(new DiscKeyInfo(ird.Data1, null, Path.Combine(discKeyCachePath, irdInfo.Filename), KeyType.Ird, ird.Crc32.ToString("x8")));
                    knownFilenames.Add(irdInfo.Filename);
                }
            }
            if (knownFilenames.Count == 0)
            {
                Log.Warn("No valid matching IRD file could be found");
                Log.Info($"If you have matching IRD file, you can put it in '{discKeyCachePath}' and try dumping the disc again");
            }

            Log.Info($"Found {result.Count} IRD files");
            return result;
        }

19 View Source File : Watchdog.cs
License : MIT License
Project Creator : 0ffffffffh

public void Start()
        {
            Log.Info("Watchdog starting...");

            WatchdogState ws = WatchdogState.Create();
            
            watchList = new HashSet<string>();
            watchdogWorkerCb = new WaitCallback(WatchdogWorkerRoutine);

            
            watchList.Add("view");
            watchList.Add("index");
            watchList.Add("add");
            

            WatchdogTimerState wts = new WatchdogTimerState(ws);
            this.wts = wts;

            workTimer =
                new Timer(new TimerCallback(Check), wts, 10 * 1000, 30 * 1000);

            
            Log.Info("Watchdog started");
        }

19 View Source File : EdisFace.cs
License : MIT License
Project Creator : 0ffffffffh

private void CacheDeniedClient(string clientIp)
        {
            string key = Edi.MakeUniqueCacheKey("EDI_DENYLIST");

            HashSet<string> denyHashlist = null;

            lock (lck)
            {
                if (!CacheManager.TryGetCachedResult<HashSet<string>>(
                    key,
                    out denyHashlist)
                    )
                {
                    denyHashlist = new HashSet<string>();
                }


                if (!denyHashlist.Contains(clientIp))
                {
                    denyHashlist.Add(clientIp);
                    CacheManager.CacheObject(key, denyHashlist,TimeSpan.FromHours(3));
                }
            }

            denyHashlist.Clear();
            denyHashlist = null;
        }

19 View Source File : StringMap.cs
License : MIT License
Project Creator : 0x0ade

public List<Tuple<string, int>> PromoteRead() {
            lock (Pending) {
                if (Pending.Count == 0)
                    return Dummy<Tuple<string, int>>.EmptyList;

                List<Tuple<string, int>> added = new();
                foreach (string value in Pending) {
                    int id = NextID++;
                    MapRead[id] = value;
                    MappedRead.Add(value);
                    added.Add(Tuple.Create(value, id));
                }
                Pending.Clear();
                return added;
            }
        }

19 View Source File : ExcelExportUtil.cs
License : MIT License
Project Creator : 404Lcc

public static void ExportSheetClreplaced(ISheet sheet, List<Cell> cellList, HashSet<string> uniqes)
        {
            if (sheet.GetRow(1) == null) return;
            for (int i = 0; i < sheet.GetRow(1).LastCellNum; i++)
            {
                string fieldName = GetCell(sheet, 1, i);
                if (string.IsNullOrEmpty(fieldName))
                {
                    continue;
                }
                if (!uniqes.Add(fieldName))
                {
                    continue;
                }
                string fieldAttribute = GetCell(sheet, 0, i);
                string fieldType = GetCell(sheet, 2, i);
                string fieldDesc = GetCell(sheet, 3, i);
                cellList.Add(new Cell(fieldAttribute, fieldName, fieldType, fieldDesc));
            }
        }

19 View Source File : ContractManager.cs
License : GNU Affero General Public License v3.0
Project Creator : ACEmulator

private void RefreshMonitoredQuestFlags()
        {
            MonitoredQuestFlags.Clear();

            var contracts = Player.Character.GetContracts(Player.CharacterDatabaseLock);

            foreach (var contract in contracts)
            {
                var datContract = GetContractFromDat(contract.ContractId);

                if (!MonitoredQuestFlags.ContainsKey(contract.ContractId))
                    MonitoredQuestFlags.Add(contract.ContractId, new HashSet<string>());

                if (!string.IsNullOrWhiteSpace(datContract.QuestflagFinished))
                    MonitoredQuestFlags[datContract.ContractId].Add(datContract.QuestflagFinished.ToLower());
                if (!string.IsNullOrWhiteSpace(datContract.QuestflagProgress))
                    MonitoredQuestFlags[datContract.ContractId].Add(datContract.QuestflagProgress.ToLower());
                if (!string.IsNullOrWhiteSpace(datContract.QuestflagRepeatTime))
                    MonitoredQuestFlags[datContract.ContractId].Add(datContract.QuestflagRepeatTime.ToLower());
                if (!string.IsNullOrWhiteSpace(datContract.QuestflagStamped))
                    MonitoredQuestFlags[datContract.ContractId].Add(datContract.QuestflagStamped.ToLower());
                if (!string.IsNullOrWhiteSpace(datContract.QuestflagStarted))
                    MonitoredQuestFlags[datContract.ContractId].Add(datContract.QuestflagStarted.ToLower());
                if (!string.IsNullOrWhiteSpace(datContract.QuestflagTimer))
                    MonitoredQuestFlags[datContract.ContractId].Add(datContract.QuestflagTimer.ToLower());
            }
        }

See More Examples