public RevitVisualizationManager(DynamoModel dynamoModel) : base(dynamoModel)
{
if (dynamoModel.Context == Context.VASARI_2014 ||
dynamoModel.Context == Context.REVIT_2015)
{
AlternateDrawingContextAvailable = true;
DrawToAlternateContext = false;
AlternateContextName = dynamoModel.Context;
RequestAlternateContextClear += CleanupVisualizations;
dynamoModel.CleaningUp += CleanupVisualizations;
}
else
{
AlternateDrawingContextAvailable = false;
}
}
public override void Cleanup()
{
try
{
preloader = null;
DynamoSelection.Instance.ClearSelection();
if (this.CurrentDynamoModel != null)
{
this.CurrentDynamoModel.ShutDown(false);
this.CurrentDynamoModel = null;
}
}
catch (Exception ex)
{
Console.WriteLine(ex.StackTrace);
}
base.Cleanup();
}
public VisualizationManager(DynamoModel model)
{
dynamoModel = model;
dynamoModel.WorkspaceClearing += Pause;
dynamoModel.WorkspaceCleared += ClearVisualizations;
dynamoModel.WorkspaceAdded += WorkspaceAdded;
dynamoModel.WorkspaceRemoved += WorkspaceRemoved;
dynamoModel.DeletionStarted += Pause;
dynamoModel.DeletionComplete += UnPauseAndUpdate;
dynamoModel.CleaningUp += Clear;
dynamoModel.EvaluationCompleted += Update;
dynamoModel.RequestsRedraw += Update;
UnPause(this, EventArgs.Empty);
}
public VisualizationManager(DynamoModel dynamoModel)
{
MaxTesselationDivisions = 128;
this.dynamoModel = dynamoModel;
renderManager = new RenderManager(this, dynamoModel);
//octree = new Octree.OctreeSearch.Octree(10000,-10000,10000,-10000,10000,-10000,10000000);
dynamoModel.WorkspaceClearing += Pause;
dynamoModel.WorkspaceCleared += UnPauseAndUpdate;
dynamoModel.NodeAdded += NodeAdded;
dynamoModel.NodeDeleted += NodeDeleted;
dynamoModel.DeletionStarted += Pause;
dynamoModel.DeletionComplete += UnPauseAndUpdate;
dynamoModel.CleaningUp += Clear;
UnPause(this, EventArgs.Empty);
}
protected virtual void StartDynamo(IPreferences settings = null)
{
var assemblyPath = Assembly.GetExecutingAssembly().Location;
preloader = new Preloader(Path.GetDirectoryName(assemblyPath));
preloader.Preload();
var preloadedLibraries = new List <string>();
GetLibrariesToPreload(preloadedLibraries);
if (preloadedLibraries.Any())
{
// Only when any library needs preloading will a path resolver be
// created, otherwise DynamoModel gets created without preloading
// any library.
//
var pathResolverParams = new TestPathResolverParams()
{
UserDataRootFolder = GetUserUserDataRootFolder(),
CommonDataRootFolder = GetCommonDataRootFolder()
};
pathResolver = new TestPathResolver(pathResolverParams);
foreach (var preloadedLibrary in preloadedLibraries.Distinct())
{
pathResolver.AddPreloadLibraryPath(preloadedLibrary);
}
}
this.CurrentDynamoModel = DynamoModel.Start(
new DynamoModel.DefaultStartConfiguration()
{
PathResolver = pathResolver,
StartInTestMode = true,
GeometryFactoryPath = preloader.GeometryFactoryPath,
Preferences = settings
});
}
public override void Cleanup()
{
try
{
preloader = null;
DynamoSelection.Instance.ClearSelection();
if (CurrentDynamoModel != null)
{
CurrentDynamoModel.ShutDown(false);
CurrentDynamoModel = null;
}
PathManager.BuiltinPackagesDirectory = originalBuiltinPackagesDirectory;
}
catch (Exception ex)
{
Console.WriteLine(ex.StackTrace);
}
base.Cleanup();
}
private void CleanupVisualizations(DynamoModel model)
{
CleanupVisualizations();
}
private void Clear(DynamoModel dynamoModel)
{
Pause(this, EventArgs.Empty);
Cleanup();
}
/// <summary>
/// Class constructor
/// </summary>
public DynamoController(string context, IUpdateManager updateManager,
IWatchHandler watchHandler, IPreferences preferences)
{
DebugSettings = new DebugSettings();
IsCrashing = false;
dynSettings.Controller = this;
Context = context;
//Start heartbeat reporting
InstrumentationLogger.Start();
PreferenceSettings = preferences;
((PreferenceSettings)PreferenceSettings).PropertyChanged += PreferenceSettings_PropertyChanged;
SIUnit.LengthUnit = PreferenceSettings.LengthUnit;
SIUnit.AreaUnit = PreferenceSettings.AreaUnit;
SIUnit.VolumeUnit = PreferenceSettings.VolumeUnit;
SIUnit.NumberFormat = PreferenceSettings.NumberFormat;
UpdateManager = updateManager;
UpdateManager.UpdateDownloaded += updateManager_UpdateDownloaded;
UpdateManager.ShutdownRequested += updateManager_ShutdownRequested;
UpdateManager.CheckForProductUpdate(new UpdateRequest(new Uri(Configurations.UpdateDownloadLocation), dynSettings.DynamoLogger, UpdateManager.UpdateDataAvailable));
WatchHandler = watchHandler;
//create the model
DynamoModel = new DynamoModel();
DynamoModel.AddHomeWorkspace();
DynamoModel.CurrentWorkspace = DynamoModel.HomeSpace;
DynamoModel.CurrentWorkspace.X = 0;
DynamoModel.CurrentWorkspace.Y = 0;
// custom node loader
string directory = Path.GetDirectoryName(Assembly.GetExecutingAssembly().Location);
string pluginsPath = Path.Combine(directory, "definitions");
CustomNodeManager = new CustomNodeManager(pluginsPath);
SearchViewModel = new SearchViewModel();
dynSettings.PackageLoader = new PackageLoader();
dynSettings.PackageLoader.DoCachedPackageUninstalls();
dynSettings.PackageLoader.LoadPackages();
DisposeLogic.IsShuttingDown = false;
EngineController = new EngineController(this);
//This is necessary to avoid a race condition by causing a thread join
//inside the vm exec
//TODO(Luke): Push this into a resync call with the engine controller
ResetEngine();
dynSettings.DynamoLogger.Log(String.Format(
"Dynamo -- Build {0}",
Assembly.GetExecutingAssembly().GetName().Version));
DynamoLoader.ClearCachedAssemblies();
DynamoLoader.LoadNodeModels();
MigrationManager.Instance.MigrationTargets.Add(typeof(WorkspaceMigrations));
Runner = new DynamoRunner();
}
private void Clear(DynamoModel dynamoModel)
{
Pause(this, EventArgs.Empty);
QueueRenderTask();
}
/// <summary>
/// Class constructor
/// </summary>
/// <param name="dynamoModel"> The parent DynamoModel object</param>
/// <param name="fschemeEnv"> The enviro. Should be able to get rid of this. </param>
public DynamoRunner(DynamoModel dynamoModel, ExecutionEnvironment fschemeEnv)
{
this.DynamoModel = dynamoModel;
this.FSchemeEnv = fschemeEnv;
}
public WorkspaceMigrations(DynamoModel dynamoModel)
{
this.dynamoModel = dynamoModel;
}
/// <summary>
/// Class constructor
/// </summary>
/// <param name="dynamoModel"> The parent DynamoModel object</param>
/// <param name="fschemeEnv"> The enviro. Should be able to get rid of this. </param>
public DynamoRunner(DynamoModel dynamoModel, ExecutionEnvironment fschemeEnv)
{
this.DynamoModel = dynamoModel;
this.FSchemeEnv = fschemeEnv;
}
/// <summary>
/// Compiles this custom node definition, updating all UI instances to match
/// inputs and outputs and registering new definition with the EngineController.
/// </summary>
public void Compile(DynamoModel dynamoModel, EngineController controller)
{
// If we are loading dyf file, dont compile it until all nodes are loaded
// otherwise some intermediate function defintions will be created.
// TODO: This is a hack, in reality we should be preventing this from being called at the Workspace.RequestSync() level --SJE
if (IsBeingLoaded || IsProxy)
{
return;
}
#region Outputs and Inputs and UI updating
#region Find outputs
// Find output elements for the node
List <Output> outputs = WorkspaceModel.Nodes.OfType <Output>().ToList();
var topMost = new List <Tuple <int, NodeModel> >();
List <string> outNames;
// if we found output nodes, add select their inputs
// these will serve as the function output
if (outputs.Any())
{
topMost.AddRange(
outputs.Where(x => x.HasInput(0)).Select(x => Tuple.Create(0, x as NodeModel)));
outNames = outputs.Select(x => x.Symbol).ToList();
}
else
{
outNames = new List <string>();
// if there are no explicitly defined output nodes
// get the top most nodes and set THEM as the output
IEnumerable <NodeModel> topMostNodes = WorkspaceModel.GetTopMostNodes();
var rtnPorts =
//Grab multiple returns from each node
topMostNodes.SelectMany(
topNode =>
//If the node is a recursive instance...
topNode is Function && (topNode as Function).Definition == this
// infinity output
? new[] { new { portIndex = 0, node = topNode, name = "∞" } }
// otherwise, grab all ports with connected outputs and package necessary info
: topNode.OutPortData
.Select(
(port, i) =>
new { portIndex = i, node = topNode, name = port.NickName })
.Where(x => !topNode.HasOutput(x.portIndex)));
foreach (var rtnAndIndex in rtnPorts.Select((rtn, i) => new { rtn, idx = i }))
{
topMost.Add(Tuple.Create(rtnAndIndex.rtn.portIndex, rtnAndIndex.rtn.node));
outNames.Add(rtnAndIndex.rtn.name ?? rtnAndIndex.idx.ToString());
}
}
var nameDict = new Dictionary <string, int>();
foreach (var name in outNames)
{
if (nameDict.ContainsKey(name))
{
nameDict[name]++;
}
else
{
nameDict[name] = 0;
}
}
nameDict = nameDict.Where(x => x.Value != 0).ToDictionary(x => x.Key, x => x.Value);
outNames.Reverse();
var keys = new List <string>();
foreach (var name in outNames)
{
int amt;
if (nameDict.TryGetValue(name, out amt))
{
nameDict[name] = amt - 1;
keys.Add(name == "" ? amt + ">" : name + amt);
}
else
{
keys.Add(name);
}
}
keys.Reverse();
ReturnKeys = keys;
#endregion
//Find function entry point, and then compile
var inputNodes = WorkspaceModel.Nodes.OfType <Symbol>().ToList();
var parameters = inputNodes.Select(x => string.IsNullOrEmpty(x.InputSymbol) ? x.AstIdentifierForPreview.Value: x.InputSymbol);
Parameters = inputNodes.Select(x => x.InputSymbol);
//Update existing function nodes which point to this function to match its changes
var customNodeInstances = dynamoModel.AllNodes
.OfType <Function>()
.Where(el => el.Definition != null && el.Definition == this);
foreach (var node in customNodeInstances)
{
node.ResyncWithDefinition();
}
//Call OnSave for all saved elements
foreach (var node in WorkspaceModel.Nodes)
{
node.OnSave();
}
#endregion
var outputNodes = topMost.Select((x) =>
{
var n = x.Item2.GetAstIdentifierForOutputIndex(x.Item1);
return(n as AssociativeNode);
});
#if ENABLE_DYNAMO_SCHEDULER
var initParams = new CompileCustomNodeParams()
{
EngineController = controller,
Definition = this,
Nodes = WorkspaceModel.Nodes.Where(x => !(x is Symbol)),
Parameters = parameters,
Outputs = outputNodes
};
// Schedule the compilation of CustomNodeDefinition, we are
// not interested in when it will be completed, so no callback.
var scheduler = dynamoModel.Scheduler;
var task = new CompileCustomNodeAsyncTask(scheduler);
if (task.Initialize(initParams))
{
scheduler.ScheduleForExecution(task);
}
#else
controller.GenerateGraphSyncDataForCustomNode(
this,
WorkspaceModel.Nodes.Where(x => !(x is Symbol)),
outputNodes,
parameters);
#endif
// Not update graph until Run
// if (success)
// controller.UpdateGraph();
}
