/// <summary>
/// Load a WorkspaceModel from json. If the WorkspaceModel is a HomeWorkspaceModel
/// it will be set as the current workspace.
/// </summary>
/// <param name="json"></param>
public static WorkspaceModel LoadWorkspaceFromJson(string json, LibraryServices libraryServices,
EngineController engineController, DynamoScheduler scheduler, NodeFactory factory,
bool isTestMode, bool verboseLogging, CustomNodeManager manager)
{
var settings = new JsonSerializerSettings
{
Error = (sender, args) =>
{
args.ErrorContext.Handled = true;
Console.WriteLine(args.ErrorContext.Error);
},
ReferenceLoopHandling = ReferenceLoopHandling.Ignore,
TypeNameHandling = TypeNameHandling.Auto,
Formatting = Formatting.Indented,
Converters = new List<JsonConverter>{
new ConnectorConverter(),
new AnnotationConverter(),
new WorkspaceConverter(engineController, scheduler, factory, isTestMode, verboseLogging),
new NodeModelConverter(manager, libraryServices),
},
ReferenceResolverProvider = () => { return new IdReferenceResolver(); }
};
var result = ReplaceTypeDeclarations(json, true);
var ws = JsonConvert.DeserializeObject<WorkspaceModel>(result, settings);
return ws;
}
/// <summary>
/// This method is called by code that intends to start a graph update.
/// This method is called on the main thread where node collection in a
/// WorkspaceModel can be safely accessed.
/// </summary>
/// <param name="controller">Reference to an instance of EngineController
/// to assist in generating GraphSyncData object for the given set of nodes.
/// </param>
/// <param name="workspace">Reference to the WorkspaceModel from which a
/// set of updated nodes is computed. The EngineController generates the
/// resulting GraphSyncData from this list of updated nodes.</param>
/// <returns>Returns true if there is any GraphSyncData, or false otherwise
/// (in which case there will be no need to schedule UpdateGraphAsyncTask
/// for execution).</returns>
///
internal bool Initialize(EngineController controller, WorkspaceModel workspace)
{
try
{
engineController = controller;
TargetedWorkspace = workspace;
ModifiedNodes = ComputeModifiedNodes(workspace);
graphSyncData = engineController.ComputeSyncData(workspace.Nodes, ModifiedNodes, verboseLogging);
if (graphSyncData == null)
return false;
// We clear dirty flags before executing the task. If we clear
// flags after the execution of task, for example in
// AsyncTask.Completed or in HandleTaskCompletionCore(), as both
// are executed in the other thread, although some nodes are
// modified and we request graph execution, but just before
// computing sync data, the task completion handler jumps in
// and clear dirty flags. Now graph sync data will be null and
// graph is in wrong state.
foreach (var nodeGuid in graphSyncData.NodeIDs)
{
var node = workspace.Nodes.FirstOrDefault(n => n.GUID.Equals(nodeGuid));
if (node != null)
node.ClearDirtyFlag();
}
return true;
}
catch (Exception e)
{
System.Diagnostics.Debug.WriteLine("UpgradeGraphAsyncTask saw: " + e.ToString());
return false;
}
}
public WorkspaceComparisonData(WorkspaceModel workspace, EngineController controller)
{
Guid = workspace.Guid;
NodeCount = workspace.Nodes.Count();
ConnectorCount = workspace.Connectors.Count();
GroupCount = workspace.Annotations.Count();
NoteCount = workspace.Notes.Count();
NodeTypeMap = new Dictionary<Guid, Type>();
NodeDataMap = new Dictionary<Guid, List<object>>();
InportCountMap = new Dictionary<Guid, int>();
OutportCountMap = new Dictionary<Guid, int>();
foreach (var n in workspace.Nodes)
{
NodeTypeMap.Add(n.GUID, n.GetType());
var portvalues = new List<object>();
foreach (var p in n.OutPorts)
{
var value = n.GetValue(p.Index, controller);
if (value.IsCollection)
{
portvalues.Add(GetStringRepOfCollection(value));
}
else
{
portvalues.Add(value.StringData);
}
}
NodeDataMap.Add(n.GUID, portvalues);
InportCountMap.Add(n.GUID, n.InPorts.Count);
OutportCountMap.Add(n.GUID, n.OutPorts.Count);
}
}
internal QueryMirrorDataAsyncTask(QueryMirrorDataParams initParams)
: base(initParams.Scheduler)
{
if (initParams.EngineController == null)
throw new ArgumentNullException("initParams.EngineController");
if (string.IsNullOrEmpty(initParams.VariableName))
throw new ArgumentNullException("initParams.VariableName");
variableName = initParams.VariableName;
engineController = initParams.EngineController;
}
/// <summary>
/// This method is called by task creator to associate the trace data with
/// the current instance of virtual machine. The given WorkspaceModel can
/// optionally contain saved trace data in a previous execution session. As
/// a side-effect, this method resets "WorkspaceModel.PreloadedTraceData"
/// data member to ensure the correctness of the execution flow.
/// </summary>
/// <param name="controller">Reference to the EngineController on which the
/// loaded trace data should be set.</param>
/// <param name="workspace">The workspace from which the trace data should
/// be retrieved.</param>
/// <returns>If the given WorkspaceModel contains saved trace data, this
/// method returns true, in which case the task needs to be scheduled.
/// Otherwise, the method returns false.</returns>
///
internal bool Initialize(EngineController controller, HomeWorkspaceModel workspace)
{
if (controller == null || (controller.LiveRunnerCore == null))
return false;
engineController = controller;
traceData = workspace.PreloadedTraceData;
TargetedWorkspace = workspace;
workspace.PreloadedTraceData = null;
return ((traceData != null) && traceData.Any());
}
/// <summary>
/// This method is called by codes that intent to start a graph update.
/// This method is called on the main thread where node collection in a
/// WorkspaceModel can be safely accessed.
/// </summary>
/// <param name="controller">Reference to an instance of EngineController
/// to assist in generating GraphSyncData object for the given set of nodes.
/// </param>
/// <param name="workspace">Reference to the WorkspaceModel from which a
/// set of updated nodes is computed. The EngineController generates the
/// resulting GraphSyncData from this list of updated nodes.</param>
/// <returns>Returns the list of node id's that will be executed in the next run
/// for execution).</returns>
internal List<Guid> Initialize(EngineController controller, WorkspaceModel workspace)
{
try
{
engineController = controller;
TargetedWorkspace = workspace;
modifiedNodes = ComputeModifiedNodes(workspace);
previewGraphData = engineController.PreviewGraphSyncData(modifiedNodes,verboseLogging);
return previewGraphData;
}
catch (Exception e)
{
return null;
}
}
/// <summary>
/// Create hight lighting rule for method.
/// </summary>
/// <returns></returns>
public static HighlightingRule CreateMethodHighlightRule(EngineController engineController)
{
Color color = (Color)ColorConverter.ConvertFromString("#417693");
var methodHighlightRule = new HighlightingRule
{
Color = new HighlightingColor()
{
Foreground = new CodeHighlightingRuleFactory.CustomizedBrush(color)
}
};
var wordList = engineController.CodeCompletionServices.GetGlobals();
String regex = String.Format(@"\b({0})({0})?\b", String.Join("|", wordList));
methodHighlightRule.Regex = new Regex(regex);
return methodHighlightRule;
}
/// <summary>
/// Create hight lighting rule for class.
/// </summary>
/// <param name="engineController"></param>
/// <returns></returns>
public static HighlightingRule CreateClassHighlightRule(EngineController engineController)
{
Color color = (Color)ColorConverter.ConvertFromString("#2E998F");
var classHighlightRule = new HighlightingRule
{
Color = new HighlightingColor()
{
Foreground = new CodeHighlightingRuleFactory.CustomizedBrush(color)
}
};
var wordList = engineController.CodeCompletionServices.GetClasses();
String regex = String.Format(@"\b({0})\b", String.Join("|", wordList));
classHighlightRule.Regex = new Regex(regex);
return classHighlightRule;
}
public static List<IGraphicItem> GeneratedGraphicItems(this NodeModel node, EngineController engineController)
{
var ids = node.GetAllOutportAstIdentifiers();
var results = new List<IGraphicItem>();
foreach (var id in ids)
{
var mirror = engineController.GetMirror(id);
if (mirror == null) continue;
var mirrorData = mirror.GetData();
if (mirrorData == null) continue;
GetGraphicItemsFromMirrorData(mirrorData, results);
}
return results;
}
/// <summary>
/// Call this method to intialize a CompileCustomNodeAsyncTask with an
/// EngineController and an GraphSyncData that is required to compile the
/// associated custom node.
/// </summary>
/// <param name="initParams">Input parameters required for custom node
/// graph updates.</param>
/// <returns>Returns true if GraphSyncData is not empty and that the
/// CompileCustomNodeAsyncTask should be scheduled for execution. Returns
/// false otherwise.</returns>
///
internal bool Initialize(CompileCustomNodeParams initParams)
{
if (initParams == null)
throw new ArgumentNullException("initParams");
engineController = initParams.EngineController;
graphSyncData = initParams.SyncData;
if (engineController == null)
throw new ArgumentNullException("engineController");
if (graphSyncData == null)
throw new ArgumentNullException("graphSyncData");
var added = graphSyncData.AddedSubtrees;
var deleted = graphSyncData.DeletedSubtrees;
var modified = graphSyncData.ModifiedSubtrees;
// Returns true if there is any actual data.
return ((added != null && added.Count > 0) ||
(modified != null && modified.Count > 0) ||
(deleted != null && deleted.Count > 0));
}
internal static ILiveRunner CreateLiveRunner(EngineController controller, string geometryFactoryFileName)
{
var configuration = new LiveRunner.Configuration();
configuration.PassThroughConfiguration.Add(Autodesk.DesignScript.Interfaces.ConfigurationKeys.GeometryFactory, geometryFactoryFileName);
return new LiveRunner(configuration);
}
public override bool RunTest(NodeModel node, EngineController engine, StreamWriter writer)
{
bool pass = false;
var valueMap = new Dictionary<Guid, String>();
if (node.OutPorts.Count > 0)
{
var firstNodeConnectors = node.AllConnectors.ToList(); //Get node connectors
foreach (ConnectorModel connector in firstNodeConnectors)
{
Guid guid = connector.Start.Owner.GUID;
if (!valueMap.ContainsKey(guid))
{
Object data = connector.Start.Owner.GetValue(0, engine).Data;
String val = data != null ? data.ToString() : "null";
valueMap.Add(guid, val);
writer.WriteLine(guid + " :: " + val);
writer.Flush();
}
}
}
int numberOfUndosNeeded = Mutate(node);
Thread.Sleep(100);
writer.WriteLine("### - Beginning undo");
for (int iUndo = 0; iUndo < numberOfUndosNeeded; iUndo++)
{
DynamoViewModel.UIDispatcher.Invoke(new Action(() =>
{
DynamoModel.UndoRedoCommand undoCommand =
new DynamoModel.UndoRedoCommand(DynamoModel.UndoRedoCommand.Operation.Undo);
DynamoViewModel.ExecuteCommand(undoCommand);
}));
Thread.Sleep(100);
}
writer.WriteLine("### - undo complete");
writer.Flush();
ExecuteAndWait();
writer.WriteLine("### - Beginning test of NumberRange");
if (node.OutPorts.Count > 0)
{
try
{
var firstNodeConnectors = node.AllConnectors.ToList();
foreach (ConnectorModel connector in firstNodeConnectors)
{
String valmap = valueMap[connector.Start.Owner.GUID].ToString();
Object data = connector.Start.Owner.GetValue(0, engine).Data;
String nodeVal = data != null ? data.ToString() : "null";
if (valmap != nodeVal)
{
writer.WriteLine("!!!!!!!!!!! - test of NumberRange is failed");
writer.WriteLine(node.GUID);
writer.WriteLine("Was: " + nodeVal);
writer.WriteLine("Should have been: " + valmap);
writer.Flush();
return pass;
}
}
}
catch (Exception)
{
writer.WriteLine("!!!!!!!!!!! - test of NumberRange is failed");
writer.Flush();
return pass;
}
}
writer.WriteLine("### - test of NumberRange complete");
writer.Flush();
return pass = true;
}
public override bool RequestVisualUpdateAsync(
IScheduler scheduler, EngineController engine, IRenderPackageFactory factory, bool forceUpdate = false)
{
// No visualization update is required for this node type.
return false;
}
/// <summary>
/// Call this method to reset the virtual machine, avoiding a race
/// condition by using a thread join inside the vm executive.
/// TODO(Luke): Push this into a resync call with the engine controller
/// </summary>
/// <param name="controller"></param>
/// <param name="markNodesAsDirty">Set this parameter to true to force
/// reset of the execution substrait. Note that setting this parameter
/// to true will have a negative performance impact.</param>
public void ResetEngine(EngineController controller, bool markNodesAsDirty = false)
{
if (EngineController != null)
{
EngineController.MessageLogged -= Log;
EngineController.LibraryServices.LibraryLoaded -= LibraryLoaded;
}
EngineController = controller;
controller.MessageLogged += Log;
controller.LibraryServices.LibraryLoaded += LibraryLoaded;
if (markNodesAsDirty)
{
// Mark all nodes as dirty so that AST for the whole graph will be
// regenerated.
MarkNodesAsModifiedAndRequestRun(Nodes);
}
if (RunSettings.RunType == RunType.Automatic)
Run();
}
public HomeWorkspaceModel(
EngineController engine,
DynamoScheduler scheduler,
NodeFactory factory,
IEnumerable<KeyValuePair<Guid, List<string>>> traceData,
IEnumerable<NodeModel> e,
IEnumerable<NoteModel> n,
IEnumerable<AnnotationModel> a,
IEnumerable<PresetModel> presets,
ElementResolver resolver,
WorkspaceInfo info,
bool verboseLogging,
bool isTestMode)
: base(e, n,a, info, factory,presets, resolver)
{
EvaluationCount = 0;
// This protects the user from a file that might have crashed during
// its last run. As a side effect, this also causes all files set to
// run auto but lacking the HasRunWithoutCrash flag to run manually.
if (info.RunType == RunType.Automatic && !info.HasRunWithoutCrash)
{
info.RunType = RunType.Manual;
}
RunSettings = new RunSettings(info.RunType, info.RunPeriod);
PreloadedTraceData = traceData;
this.scheduler = scheduler;
this.verboseLogging = verboseLogging;
IsTestMode = isTestMode;
EngineController = engine;
// The first time the preloaded trace data is set, we cache
// the data as historical. This will be used after the initial
// run of this workspace, when the PreloadedTraceData has been
// nulled, to check for node deletions and reconcile the trace data.
// We do a deep copy of this data because the PreloadedTraceData is
// later set to null before the graph update.
var copiedData = new List<KeyValuePair<Guid, List<string>>>();
foreach (var kvp in PreloadedTraceData)
{
var strings = kvp.Value.Select(string.Copy).ToList();
copiedData.Add(new KeyValuePair<Guid, List<string>>(kvp.Key, strings));
}
historicalTraceData = copiedData;
}
public HomeWorkspaceModel(EngineController engine, DynamoScheduler scheduler,
NodeFactory factory, bool verboseLogging, bool isTestMode, string fileName="")
: this(
engine,
scheduler,
factory,
Enumerable.Empty<KeyValuePair<Guid, List<string>>>(),
Enumerable.Empty<NodeModel>(),
Enumerable.Empty<NoteModel>(),
Enumerable.Empty<AnnotationModel>(),
Enumerable.Empty<PresetModel>(),
new ElementResolver(),
new WorkspaceInfo(){FileName = fileName, Name = "Home"},
verboseLogging,
isTestMode) { }
public override void RequestVisualUpdateAsync(
IScheduler scheduler, EngineController engine, IRenderPackageFactory factory, bool forceUpdate = false)
{
//Do nothing
}
public HomeWorkspaceModel(Guid guid, EngineController engine,
DynamoScheduler scheduler,
NodeFactory factory,
IEnumerable<KeyValuePair<Guid, List<CallSite.RawTraceData>>> traceData,
IEnumerable<NodeModel> nodes,
IEnumerable<NoteModel> notes,
IEnumerable<AnnotationModel> annotations,
IEnumerable<PresetModel> presets,
ElementResolver resolver,
WorkspaceInfo info,
bool verboseLogging,
bool isTestMode):this(engine, scheduler, factory, traceData, nodes, notes,
annotations, presets, resolver, info, verboseLogging, isTestMode)
{ Guid = guid; }
public WorkspaceConverter(EngineController engine,
DynamoScheduler scheduler, NodeFactory factory, bool isTestMode, bool verboseLogging)
{
this.scheduler = scheduler;
this.engine = engine;
this.factory = factory;
this.isTestMode = isTestMode;
this.verboseLogging = verboseLogging;
}
public LiveRunnerServices(EngineController controller, string geometryFactoryFileName)
{
liveRunner = LiveRunnerFactory.CreateLiveRunner(controller, geometryFactoryFileName);
}
public LiveRunnerServices(EngineController controller, string geometryFactoryFileName)
{
liveRunner = LiveRunnerFactory.CreateLiveRunner(controller, geometryFactoryFileName);
}
internal void ConvertNodesToCodeInternal(EngineController engineController, INamingProvider namingProvider)
{
var selectedNodes = DynamoSelection.Instance
.Selection
.OfType<NodeModel>()
.Where(n => n.IsConvertible);
if (!selectedNodes.Any())
return;
var cliques = NodeToCodeCompiler.GetCliques(selectedNodes).Where(c => !(c.Count == 1 && c.First() is CodeBlockNodeModel));
var codeBlockNodes = new List<CodeBlockNodeModel>();
//UndoRedo Action Group----------------------------------------------
NodeToCodeUndoHelper undoHelper = new NodeToCodeUndoHelper();
// using (UndoRecorder.BeginActionGroup())
{
foreach (var nodeList in cliques)
{
//Create two dictionarys to store the details of the external connections that have to
//be recreated after the conversion
var externalInputConnections = new Dictionary<ConnectorModel, string>();
var externalOutputConnections = new Dictionary<ConnectorModel, string>();
//Also collect the average X and Y co-ordinates of the different nodes
int nodeCount = nodeList.Count;
var nodeToCodeResult = engineController.ConvertNodesToCode(this.nodes, nodeList, namingProvider);
#region Step I. Delete all nodes and their connections
double totalX = 0, totalY = 0;
foreach (var node in nodeList)
{
#region Step I.A. Delete the connections for the node
foreach (var connector in node.AllConnectors.ToList())
{
if (!IsInternalNodeToCodeConnection(nodeList, connector))
{
//If the connector is an external connector, the save its details
//for recreation later
var startNode = connector.Start.Owner;
int index = startNode.OutPorts.IndexOf(connector.Start);
//We use the varibleName as the connection between the port of the old Node
//to the port of the new node.
var variableName = startNode.GetAstIdentifierForOutputIndex(index).Value;
//Store the data in the corresponding dictionary
if (startNode == node)
{
if (nodeToCodeResult.OutputMap.ContainsKey(variableName))
variableName = nodeToCodeResult.OutputMap[variableName];
externalOutputConnections.Add(connector, variableName);
}
else
{
if (nodeToCodeResult.InputMap.ContainsKey(variableName))
variableName = nodeToCodeResult.InputMap[variableName];
externalInputConnections.Add(connector, variableName);
}
}
//Delete the connector
undoHelper.RecordDeletion(connector);
connector.Delete();
}
#endregion
#region Step I.B. Delete the node
totalX += node.X;
totalY += node.Y;
undoHelper.RecordDeletion(node);
RemoveNode(node);
#endregion
}
#endregion
#region Step II. Create the new code block node
var outputVariables = externalOutputConnections.Values;
var newResult = NodeToCodeCompiler.ConstantPropagationForTemp(nodeToCodeResult, outputVariables);
// Rewrite the AST using the shortest unique name in case of namespace conflicts
NodeToCodeCompiler.ReplaceWithShortestQualifiedName(
engineController.LibraryServices.LibraryManagementCore.ClassTable, newResult.AstNodes, ElementResolver);
var codegen = new ProtoCore.CodeGenDS(newResult.AstNodes);
var code = codegen.GenerateCode();
var codeBlockNode = new CodeBlockNodeModel(
code,
System.Guid.NewGuid(),
totalX / nodeCount,
totalY / nodeCount, engineController.LibraryServices, ElementResolver);
undoHelper.RecordCreation(codeBlockNode);
AddAndRegisterNode(codeBlockNode, false);
codeBlockNodes.Add(codeBlockNode);
#endregion
#region Step III. Recreate the necessary connections
var newInputConnectors = ReConnectInputConnections(externalInputConnections, codeBlockNode);
foreach (var connector in newInputConnectors)
{
undoHelper.RecordCreation(connector);
}
var newOutputConnectors = ReConnectOutputConnections(externalOutputConnections, codeBlockNode);
foreach (var connector in newOutputConnectors)
{
undoHelper.RecordCreation(connector);
}
#endregion
}
}
undoHelper.ApplyActions(UndoRecorder);
DynamoSelection.Instance.ClearSelection();
DynamoSelection.Instance.Selection.AddRange(codeBlockNodes);
RequestRun();
}
public override bool RunTest(NodeModel node, EngineController engine, StreamWriter writer)
{
bool pass = false;
List<ConnectorModel> firstNodeConnectors = node.AllConnectors.ToList();
Dictionary<Guid, String> valueMap = new Dictionary<Guid, String>();
foreach (ConnectorModel connector in firstNodeConnectors)
{
if (connector.Start.Owner.GUID != node.GUID)
{
Guid guid = connector.Start.Owner.GUID;
if (!valueMap.ContainsKey(guid))
{
String val = connector.Start.Owner.NickName;
valueMap.Add(guid, val);
writer.WriteLine(guid + " :: " + val);
writer.Flush();
}
}
else if (connector.End.Owner.GUID != node.GUID)
{
Guid guid = connector.End.Owner.GUID;
if (!valueMap.ContainsKey(guid))
{
String val = connector.End.Owner.NickName;
valueMap.Add(guid, val);
writer.WriteLine(guid + " :: " + val);
writer.Flush();
}
}
}
int numberOfUndosNeeded = Mutate(node);
Thread.Sleep(0);
IEnumerable<NodeModel> nodesAfterMutate = DynamoViewModel.Model.CurrentWorkspace.Nodes;
if (nodesAfterMutate.Contains(node))
{
writer.WriteLine("### - Connector wasn't deleted");
writer.Flush();
return pass;
}
else
writer.WriteLine("### - Connector was deleted");
for (int iUndo = 0; iUndo < numberOfUndosNeeded; iUndo++)
{
DynamoViewModel.UIDispatcher.Invoke(new Action(() =>
{
DynamoModel.UndoRedoCommand undoCommand =
new DynamoModel.UndoRedoCommand(
DynamoModel.UndoRedoCommand.Operation.Undo);
DynamoViewModel.ExecuteCommand(undoCommand);
}));
}
Thread.Sleep(0);
IEnumerable<NodeModel> nodesAfterUndo = DynamoViewModel.Model.CurrentWorkspace.Nodes;
NodeModel nodeAfterUndo = nodesAfterUndo.FirstOrDefault(t => t.GUID.Equals(node.GUID));
List<ConnectorModel> firstNodeConnectorsAfterUndo = nodeAfterUndo.AllConnectors.ToList();
foreach (ConnectorModel connector in firstNodeConnectorsAfterUndo)
{
if (connector.Start.Owner.GUID != node.GUID)
{
Guid guid = connector.Start.Owner.GUID;
if (!valueMap.ContainsKey(guid))
{
writer.WriteLine("### - ### - Connector wasn't recreated");
writer.Flush();
return pass;
}
else
{
writer.WriteLine("### - Connector was recreated");
writer.Flush();
}
}
else if (connector.End.Owner.GUID != node.GUID)
{
Guid guid = connector.End.Owner.GUID;
if (!valueMap.ContainsKey(guid))
{
writer.WriteLine("### - ### - Connector wasn't recreated");
writer.Flush();
return pass;
}
else
{
writer.WriteLine("### - Connector was recreated");
writer.Flush();
}
}
}
return pass = true;
}
public override bool RunTest(NodeModel node, EngineController engine, StreamWriter writer)
{
bool pass = false;
var types = LoadAllTypesFromDynamoAssemblies();
foreach (Type type in types)
{
string nodeName = GetName(type);
var firstNodeConnectors = node.AllConnectors.ToList();
double coordinatesX = node.X;
double coordinatesY = node.Y;
if (!string.IsNullOrEmpty(nodeName))
{
DynamoViewModel.UIDispatcher.Invoke(new Action(() =>
{
var newNode = type.GetDefaultConstructor<NodeModel>()();
DynamoModel.CreateNodeCommand createCommand =
new DynamoModel.CreateNodeCommand(
newNode, coordinatesX, coordinatesY, false, false);
DynamoViewModel.ExecuteCommand(createCommand);
}));
var valueMap = new Dictionary<Guid, String>();
foreach (ConnectorModel connector in firstNodeConnectors)
{
Guid guid = connector.Start.Owner.GUID;
Object data = connector.Start.Owner.GetValue(0, engine).Data;
String val = data != null ? data.ToString() : "null";
valueMap.Add(guid, val);
writer.WriteLine(guid + " :: " + val);
writer.Flush();
}
int numberOfUndosNeeded = Mutate(node);
Thread.Sleep(100);
writer.WriteLine("### - Beginning undo");
for (int iUndo = 0; iUndo < numberOfUndosNeeded; iUndo++)
{
DynamoViewModel.UIDispatcher.Invoke(new Action(() =>
{
DynamoModel.UndoRedoCommand undoCommand =
new DynamoModel.UndoRedoCommand(DynamoModel.UndoRedoCommand.Operation.Undo);
DynamoViewModel.ExecuteCommand(undoCommand);
}));
}
Thread.Sleep(100);
writer.WriteLine("### - undo complete");
writer.Flush();
DynamoViewModel.UIDispatcher.Invoke(new Action(() =>
{
DynamoModel.RunCancelCommand runCancel =
new DynamoModel.RunCancelCommand(false, false);
DynamoViewModel.ExecuteCommand(runCancel);
}));
while (!DynamoViewModel.HomeSpace.RunSettings.RunEnabled)
{
Thread.Sleep(10);
}
writer.WriteLine("### - Beginning test of CustomNode");
if (node.OutPorts.Count > 0)
{
try
{
NodeModel nodeAfterUndo =
DynamoViewModel.Model.CurrentWorkspace.Nodes.FirstOrDefault(
(t) => (t.GUID == node.GUID));
if (nodeAfterUndo != null)
{
var firstNodeConnectorsAfterUndo = nodeAfterUndo.AllConnectors.ToList();
foreach (ConnectorModel connector in firstNodeConnectors)
{
Guid guid = connector.Start.Owner.GUID;
Object data = connector.Start.Owner.GetValue(0, engine).Data;
String val = data != null ? data.ToString() : "null";
if (valueMap[guid] != val)
{
writer.WriteLine("!!!!!!!!!!! - test of CustomNode is failed");
writer.WriteLine(node.GUID);
writer.WriteLine("Was: " + val);
writer.WriteLine("Should have been: " + valueMap[guid]);
writer.Flush();
return pass;
}
}
}
}
catch (Exception)
{
writer.WriteLine("!!!!!!!!!!! - test of CustomNode is failed");
writer.Flush();
return pass;
}
}
writer.WriteLine("### - test of CustomNode complete");
writer.Flush();
}
}
return pass = true;
}
public override bool RunTest(NodeModel node, EngineController engine, StreamWriter writer)
{
bool pass = false;
var valueMap = new Dictionary<Guid, String>();
if (node.OutPorts.Count > 0)
{
Guid guid = node.GUID;
Object data = node.GetValue(0, engine).Data;
String val = data != null ? data.ToString() : "null";
valueMap.Add(guid, val);
writer.WriteLine(guid + " :: " + val);
writer.Flush();
}
int numberOfUndosNeeded = Mutate(node);
Thread.Sleep(100);
writer.WriteLine("### - Beginning undo");
for (int iUndo = 0; iUndo < numberOfUndosNeeded; iUndo++)
{
DynamoViewModel.UIDispatcher.Invoke(new Action(() =>
{
DynamoModel.UndoRedoCommand undoCommand =
new DynamoModel.UndoRedoCommand(
DynamoModel.UndoRedoCommand.Operation.Undo);
DynamoViewModel.ExecuteCommand(undoCommand);
}));
}
Thread.Sleep(100);
writer.WriteLine("### - undo complete");
writer.Flush();
writer.WriteLine("### - Beginning re-exec");
ExecuteAndWait();
writer.WriteLine("### - re-exec complete");
writer.Flush();
writer.WriteLine("### - Beginning readback");
writer.WriteLine("### - Beginning test of DirectoryPath");
if (node.OutPorts.Count > 0)
{
try
{
string valmap = valueMap[node.GUID].ToString();
object data = node.GetValue(0, engine).Data;
string nodeVal = data != null ? data.ToString() : "null";
if (valmap != nodeVal)
{
writer.WriteLine("!!!!!!!!!!! - test of DirectoryPath is failed");
writer.WriteLine(node.GUID);
writer.WriteLine("Was: " + nodeVal);
writer.WriteLine("Should have been: " + valmap);
writer.Flush();
return pass;
}
}
catch (Exception)
{
writer.WriteLine("!!!!!!!!!!! - test of DirectoryPath is failed");
writer.Flush();
return pass;
}
}
writer.WriteLine("### - test of DirectoryPath complete");
writer.Flush();
return pass = true;
}
internal bool Initialize(UpdateRenderPackageParams initParams)
{
if (initParams == null)
throw new ArgumentNullException("initParams");
if (initParams.Node == null)
throw new ArgumentNullException("initParams.Node");
if (initParams.EngineController == null)
throw new ArgumentNullException("initParams.EngineController");
if (initParams.DrawableIds == null)
throw new ArgumentNullException("initParams.DrawableIds");
var nodeModel = initParams.Node;
if (!nodeModel.WasInvolvedInExecution && !initParams.ForceUpdate)
return false; // Not has not been updated at all.
// If a node is in either of the following states, then it will not
// produce any geometric output. Bail after clearing the render packages.
if (nodeModel.IsInErrorState || !nodeModel.IsVisible)
return false;
// Without AstIdentifierForPreview, a node cannot have MirrorData.
if (string.IsNullOrEmpty(nodeModel.AstIdentifierForPreview.Value))
return false;
drawableIds = initParams.DrawableIds;
if (!drawableIds.Any())
return false; // Nothing to be drawn.
displayLabels = nodeModel.DisplayLabels;
isNodeSelected = nodeModel.IsSelected;
factory = initParams.RenderPackageFactory;
engineController = initParams.EngineController;
previewIdentifierName = initParams.PreviewIdentifierName;
nodeGuid = nodeModel.GUID;
return true;
}
public override bool RunTest(NodeModel node, EngineController engine, StreamWriter writer)
{
bool pass = false;
int workspaceIndex = DynamoViewModel.CurrentWorkspaceIndex;
var firstNodeConnectors = node.AllConnectors.ToList();
var valueMap = new Dictionary<Guid, String>();
foreach (ConnectorModel connector in firstNodeConnectors)
{
if (connector.End.Owner.GUID != node.GUID)
{
Guid guid = connector.Start.Owner.GUID;
Object data = connector.Start.Owner.GetValue(0, engine).Data;
String val = data != null ? data.ToString() : "null";
valueMap.Add(guid, val);
writer.WriteLine(guid + " :: " + val);
writer.Flush();
}
}
string customNodeFilePath = string.Empty;
var function = node as Function;
CustomNodeInfo info = null;
if (function != null)
{
var id = function.Definition.FunctionId;
if (DynamoViewModel.Model.CustomNodeManager.TryGetNodeInfo(id, out info))
{
customNodeFilePath = info.Path;
}
}
var workspaces = DynamoViewModel.Model.Workspaces;
if (File.Exists(customNodeFilePath))
{
DynamoViewModel.UIDispatcher.Invoke(new Action(() =>
{
DynamoModel.OpenFileCommand openFile =
new DynamoModel.OpenFileCommand(customNodeFilePath);
DynamoViewModel.ExecuteCommand(openFile);
}));
Thread.Sleep(100);
var nodesInCustomNodeBeforeMutation =
workspaces.FirstOrDefault((t) => (t.Name == info.Name)).Nodes.ToList();
var customNodeStructureBeforeMutation =
GetDictionaryOfConnectedNodes(nodesInCustomNodeBeforeMutation);
int numberOfUndosNeeded = Mutate(node);
Thread.Sleep(100);
writer.WriteLine("### - Beginning undo");
for (int iUndo = 0; iUndo < numberOfUndosNeeded; iUndo++)
{
DynamoViewModel.UIDispatcher.Invoke(new Action(() =>
{
DynamoModel.UndoRedoCommand undoCommand =
new DynamoModel.UndoRedoCommand(DynamoModel.UndoRedoCommand.Operation.Undo);
DynamoViewModel.ExecuteCommand(undoCommand);
}));
Thread.Sleep(100);
}
writer.WriteLine("### - undo complete");
writer.Flush();
ExecuteAndWait();
DynamoViewModel.UIDispatcher.Invoke(new Action(() =>
{
DynamoModel.SwitchTabCommand switchCmd =
new DynamoModel.SwitchTabCommand(workspaceIndex);
DynamoViewModel.ExecuteCommand(switchCmd);
}));
Thread.Sleep(100);
var nodesInCustomNodeAfterMutation =
workspaces.FirstOrDefault((t) => (t.Name == info.Name)).Nodes.ToList();
var customNodeStructureAfterMutation =
GetDictionaryOfConnectedNodes(nodesInCustomNodeAfterMutation);
writer.WriteLine("### - Beginning test of CustomNode structure");
if (customNodeStructureBeforeMutation.Count == customNodeStructureAfterMutation.Count)
{
foreach (var item in customNodeStructureAfterMutation)
{
if (item.Value != customNodeStructureBeforeMutation[item.Key])
{
writer.WriteLine("!!!!!!!!!!! - test of CustomNode structure is failed");
writer.Flush();
return pass;
}
}
}
else
{
writer.WriteLine("!!!!!!!!!!! - test of CustomNode structure is failed");
writer.Flush();
return pass;
}
writer.WriteLine("### - Beginning test of CustomNode");
if (node.OutPorts.Count > 0)
{
try
{
NodeModel nodeAfterUndo =
workspaces.SelectMany(ws => ws.Nodes)
.FirstOrDefault(t => t.GUID.Equals(node.GUID));
if (nodeAfterUndo == null)
{
writer.WriteLine("!!!!!!!!!!! - test of CustomNode is failed");
writer.Flush();
return pass;
}
var firstNodeConnectorsAfterUndo = nodeAfterUndo.AllConnectors.ToList();
foreach (ConnectorModel connector in firstNodeConnectorsAfterUndo)
{
if (connector.End.Owner.GUID != node.GUID)
{
Object data = connector.Start.Owner.GetValue(0, engine).Data;
String nodeVal = data != null ? data.ToString() : "null";
if (valueMap[connector.Start.Owner.GUID] != nodeVal)
{
writer.WriteLine("!!!!!!!!!!! - test of CustomNode is failed");
writer.WriteLine(node.GUID);
writer.WriteLine("Was: " + nodeVal);
writer.WriteLine("Should have been: " +
valueMap[connector.End.Owner.GUID]);
writer.Flush();
return pass;
}
}
}
}
catch (Exception)
{
writer.WriteLine("!!!!!!!!!!! - test of CustomNode is failed");
writer.Flush();
return pass;
}
}
var workspacesOfCustomNodes = DynamoViewModel.Workspaces.Where((t) =>
{
return (t.Model is CustomNodeWorkspaceModel);
}).ToList();
if (workspacesOfCustomNodes != null)
{
foreach (var item in workspacesOfCustomNodes)
{
DynamoViewModel.UIDispatcher.Invoke(new Action(() =>
{
DynamoModel.SwitchTabCommand swithCommand =
new DynamoModel.SwitchTabCommand(workspaceIndex);
DynamoViewModel.ExecuteCommand(swithCommand);
DynamoViewModel.Workspaces.Remove(item);
}));
}
}
writer.WriteLine("### - test of CustomNode complete");
writer.Flush();
}
return pass = true;
}
public abstract bool RunTest(NodeModel node, EngineController engine, StreamWriter writer);
public override bool RunTest(NodeModel node, EngineController engine, StreamWriter writer)
{
const bool pass = false;
var nodes = DynamoViewModel.Model.CurrentWorkspace.Nodes;
if (nodes.Count() == 0)
return pass;
int nodesCountBeforeCopying = nodes.Count();
int numberOfUndosNeeded = this.Mutate(node);
Thread.Sleep(10);
writer.WriteLine("### - Beginning undo");
for (int iUndo = 0; iUndo < numberOfUndosNeeded; iUndo++)
{
DynamoViewModel.UIDispatcher.Invoke(new Action(() =>
{
DynamoModel.UndoRedoCommand undoCommand =
new DynamoModel.UndoRedoCommand(DynamoModel.UndoRedoCommand.Operation.Undo);
DynamoViewModel.ExecuteCommand(undoCommand);
}));
Thread.Sleep(0);
}
writer.WriteLine("### - undo complete");
writer.Flush();
ExecuteAndWait();
writer.WriteLine("### - Beginning test of CopyNode");
if (node.OutPorts.Count > 0)
{
try
{
int nodesCountAfterCopying = DynamoViewModel.Model.CurrentWorkspace.Nodes.Count();
if (nodesCountBeforeCopying != nodesCountAfterCopying)
{
writer.WriteLine("!!!!!!!!!!! - test of CopyNode is failed");
writer.WriteLine(node.GUID);
writer.WriteLine("Was: " + nodesCountAfterCopying);
writer.WriteLine("Should have been: " + nodesCountBeforeCopying);
writer.Flush();
return pass;
}
else
{
writer.WriteLine("### - test of CopyNode is passed");
writer.Flush();
}
}
catch (Exception)
{
writer.WriteLine("!!!!!!!!!!! - test of CopyNode is failed");
writer.Flush();
return pass;
}
}
writer.WriteLine("### - test of CopyNode complete");
writer.Flush();
return true;
}
protected void ResetEngineInternal()
{
if (EngineController != null)
{
EngineController.TraceReconcliationComplete -= EngineController_TraceReconcliationComplete;
EngineController.MessageLogged -= LogMessage;
EngineController.Dispose();
EngineController = null;
}
EngineController = new EngineController(
LibraryServices,
geometryFactoryPath,
DebugSettings.VerboseLogging);
EngineController.MessageLogged += LogMessage;
EngineController.TraceReconcliationComplete += EngineController_TraceReconcliationComplete;
foreach (var def in CustomNodeManager.LoadedDefinitions)
RegisterCustomNodeDefinitionWithEngine(def);
}
public ColorRange1D ComputeColorRange(EngineController engine)
{
List<Color> colors;
List<double> parameters;
// If there are colors supplied
if (HasConnectedInput(0))
{
var colorsNode = InPorts[0].Connectors[0].Start.Owner;
var colorsIndex = InPorts[0].Connectors[0].Start.Index;
var startId = colorsNode.GetAstIdentifierForOutputIndex(colorsIndex).Name;
var colorsMirror = engine.GetMirror(startId);
colors = GetColorsFromMirrorData(colorsMirror);
}
else
{
colors = new List<Color>();
colors.AddRange(DefaultColorRanges.Analysis);
}
// If there are indices supplied
if (HasConnectedInput(1))
{
var valuesNode = InPorts[1].Connectors[0].Start.Owner;
var valuesIndex = InPorts[1].Connectors[0].Start.Index;
var endId = valuesNode.GetAstIdentifierForOutputIndex(valuesIndex).Name;
var valuesMirror = engine.GetMirror(endId);
parameters = GetValuesFromMirrorData(valuesMirror);
}
else
{
parameters = CreateParametersForColors(colors);
}
return ColorRange1D.ByColorsAndParameters(colors, parameters);
}
